1.
1. Describe 3 of the health benefits of stretching.
2. Describe 3 ways to prevent back and neck issues.
3. Describe how posture effects back health and list 3 ways to improve posture.
2.
1. Complete Lab 10A pg. 221
2. Complete Lab 10B pg. 223
3. Complete Lab 11A p. 259
4. Complete Lab 11B p. 261
3.
1. Complete Lab 13A pg. 313
2. Complete Lab13B pg. 317
3. Complete Lab 13C pg. 319
19
9
Flexibility
LEARNING OBJECTIVES
After completing the study of this concept, you will be able to:
▶ Identify and explain several misconceptions about flexibility.
▶ List the health benefits of flexibility and stretching.
▶ Describe the various methods of stretching and their advantages
and disadvantages.
▶ Determine the amount of exercise necessary to improve flexibility, explain the FIT
formulas for the different types of stretching, and describe factors in the “do and
don’t list for stretching.”
▶ Describe a variety of flexibility-based activities for improving flexibility and some
of the advantages and disadvantages of each.
▶ Identify some of the
guidelines for safe and
effective stretching.
▶ Describe several self-
assessments for flexibility,
select the self-assessments
that help you identify
personal needs, and plan
(and self-monitor) a personal
flexibility exercise program.
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• Regular stretching exercises promote flexibility,
a component of fitness that permits freedom of
movement, contributes to ease and economy of
muscular effort, allows for successful performance in
certain activities, and provides less susceptibility to
some types of injuries or musculoskeletal problems.
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200 Section 3 ▶ The Physical Activity Pyramid
is described by the arc through which a joint moves and is
typically measured in degrees using a tool called a goni-
ometer. The direction of movement at a specific joint is
determined by the shapes of the bony surfaces that are in
contact. Certain types of joints allow for greater move-
ment than others. In fact, flexibility is highly joint spe-
cific. An individual may demonstrate optimal flexibility
in one region of the body but not in others. For example,
a person may have good flexibility of the spine, hips, and
legs in order to reach down and touch the toes, but is
unable to clasp both hands behind the back due to stiff-
ness of the shoulder joints.
Medical professionals use a specific vocabulary to
describe the movement of joints. Figure 1 illustrates some
of these movement terms as they relate to hip, knee, or
ankle motion. Similar terms are applied in describing
movement of the spine and upper body. Note that the
same terms (such as flexion/extension ) can be applied to dif-
ferent joints, while other terms (such as dorsiflexion/plantar
flexion ) are unique to a specific joint such as the ankle.
The shape, size, and orientation of a joint greatly
influence the amount of motion available. The
circular surface of the ball-and-socket joint of the hip,
for example, allows for considerable mobility, includ-
ing movement to the side (adduction and abduction),
forward and backward (flexion and extension), and in
F
lexibility refers to the amount of motion that is
possible at a given joint or series of joints. A joint with
limited ability to bend or straighten is said to be tight
or stiff, while joints with a high degree of flexibility are
loose-jointed, or hypermobile. A reasonable amount of
flexibility is needed to perform efficiently and effectively
in daily life, but excessive flexibility is not desirable.
Flexibility is important for good health because it
helps with the maintenance of good posture and the
prevention of back and neck problems. It directly con-
tributes to wellness as it enables people to move more
freely and perform daily tasks more effectively, which is
especially important for maintaining independence and
function later in life. Lastly, flexibility contributes to
improved performance in sports. Good flexibility is obvi-
ous in sports such as gymnastics, figure skating, diving,
wrestling, and swimming, but it contributes to dynamic
movement and performance in many other sports as well.
While these points are widely accepted, there are a
number of misconceptions about flexibility, stemming
largely from confusion about differences between flex-
ibility and stretching. Flexibility is a state of being and
something that can be measured. Stretching, in contrast, is
a behavior that can improve flexibility if performed regu-
larly. The effects of stretching and of flexibility must be
considered independently to interpret research in this
area. For example, research has shown that stretching
may have little impact on injuries during a bout of physi-
cal activity, but this does not discount the benefits of good
flexibility (and broader indicators of functional fitness) on
injury prevention. Similarly, research now indicates that
stretching prior to exercise may (in some circumstances)
reduce performance in some speed and power activities.
This has caused some athletes to erroneously assume that
stretching (and flexibility) is not important and even det-
rimental to their performance. Stretching should still be
an important part of a training program for athletes, but,
as described later in this concept, the timing and length of
stretches are critical for optimal results.
This concept will further clarify the distinctions between
flexibility and stretching. The initial sections explain the
factors influencing flexibility and how flexibility impacts
health and wellness. We look at various stretching methods
for improving flexibility and the recommended amounts to
perform. The final section covers flexibility-based activities
and guidelines for incorporating stretching into your fit-
ness program.
Flexibility Fundamentals
The range of motion in a joint or joints is a reflection
of the flexibility at that joint. Clinically, the range of
motion (ROM) of a joint is the extent and direction
of movement that is possible. The extent of movement
Adduction
Flexion
Abduction
Extension
Extension
Flexion
Dorsiflexion
Plantar flexion Eversion
Inversion
Hip
Knee
Ankle
Figure 1 ▶ Ranges of joint motion.
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Concept 10 ▶ Flexibility 201
and out (internal and external rotation). The hinge joint
of the knee is more restrictive and limits movement to
primarily forward and backward (flexion and extension).
Motion at other joints, such as the ankle, involves the
combined movements of numerous
bony surfaces. A hinge-type portion
permits the up and down motion
of the foot (dorsiflexion and plan-
tar flexion), while a separate planar-type joint allows the
side-to-side motion (inversion and eversion) of the foot.
A basic understanding of this terminology is important
in understanding principles of flexibility and stretching.
Flexibility is influenced by the extensibility of soft
tissues such as muscles, tendons, and ligaments.
Soft tissues are made up of a number of substances,
including fibers called collagen and elastin. These struc-
tural building blocks influence the degree of extensibility
of tissues such as ligaments , tendons , and muscles. Tis-
sues with a greater proportion of collagen fibers tend to
be stiffer while those with more elastin tend to bend and
stretch more readily. Ligaments contain a greater pro-
portion of collagen and this enhances their function in
providing rigidity and stability to a joint and their role in
restricting excessive joint motion. Damage to ligaments
from repeated sprains can lead to excessive joint laxity
and increased risk for injuries. Tendons contain a greater
proportion of elastin than ligaments but muscles contain
even more and this contributes to their relatively high
degree of flexibility. Together, the muscles and tendons
are referred to as a muscle-tendon unit (MTU) and
due to their connection, they are both stretched together.
In this book we will generally refer to muscles or tissues
rather than the MTU.
The short-term gains in range of motion immediately
following stretching are commonly attributed to changes
in the “viscoelastic” properties of muscle. Viscosity refers
to a property that allows tissues to undergo slow changes
in length over time (like taffy) while elasticity refers to
a property that allows tissues to return to normal shape
after being stretched (like a rubber band). When a muscle
is stretched, there are changes in muscle length as well as
a decline in muscle stiffness . However, due to the elas-
tic nature of the MTU, these changes are short-lived.
In fact, studies have shown that the beneficial effects of a
30- or 45-second static stretch can disappear in less than
30 seconds. Thus, changes in viscoelasticity contribute to
small temporary changes in muscle length and stiffness
rather than long-term changes in flexibility.
Some regions of the body are more prone to
tightness than others. A number of muscles in the
body have a predictable tendency toward tightness. Cli-
nicians refer to these muscles as “tonic” or “postural”
muscles because of their tendency to tighten or shorten.
A characteristic of these muscles is that they tend to cross
more than one joint. Included in the list are the upper
trapezius, the muscles at the base of the skull, the pecto-
ralis, hip flexors, low back extensors, hamstrings, adduc-
tors, and calf muscles. These muscles typically benefit the
most from stretching and therefore are often targeted by
common stretching exercises. Specific exercises for these
muscle groups are provided at the end of the concept.
Static flexibility is different from dynamic flexibility.
A joint’s flexibility can be described differently depending
on how it is assessed. Static flexibility is the maximum
range a joint can achieve under stationary conditions. An
example is the hip ROM achieved during a hamstring
stretch. Static flexibility is limited by passive viscous
and elastic properties of the muscles. Dynamic flex-
ibility is the maximum range a joint can achieve under
active conditions. An example is the maximum height and
position of a hurdler’s lead leg. While it may seem logi-
cal that dynamic flexibility would be greater than static,
the opposite is true. This is because dynamic flexibility is
influenced by both passive and dynamic properties of the
tissues. A hurdler’s performance, for example, depends on
the passive muscle and tendon extensibility as well as the
ability to move against gravity, at fast speeds, and without
elicitation of a stretch reflex. While good static flexibil-
ity is necessary for good dynamic flexibility, it does not
ensure it. Athletes must train both static and dynamic
flexibility for optimal performance.
Factors Influencing Flexibility
Flexibility varies considerably across the lifespan.
Flexibility is generally high in children but declines
during adolescence because of the rapid changes in
Range of Motion (ROM) The full motion possible
in a joint or series of joints.
Ligaments Bands of tissue that connect bones.
Unlike muscles and tendons, overstretching liga-
ments is not desirable.
Tendons Fibrous bands of tissue that connect mus-
cles to bones and facilitate movement of a joint.
Laxity Motion in a joint outside the normal plane
for that joint, due to loose ligaments.
Muscle-Tendon Unit (MTU) The skeletal muscles
and the tendons that connect them to bones. Stretch-
ing to improve flexibility is associated with increased
length of the MTU.
Stiffness Elasticity in the MTU; measured by force
needed to stretch.
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202 Section 3 ▶ The Physical Activity Pyramid
growth—essentially, the bones grow faster than the soft
tissues. In early adulthood, the muscles and tendons catch
up to the skeletal system, causing flexibility to peak in the
mid- to late 20s. With increasing age, range of motion
tends to decline again. Reduced flexibility is due to a loss
of elasticity in the MTU and cross-linkages within col-
lagen fibers of the tendons, ligaments, and joint capsules.
Over the span of their working lives, adults typically lose
3 to 4 inches of lower back flexibility as measured by
the common “sit-and-reach” test. Research studies have
confirmed that declines in flexibility are not as evident
in individuals who maintain regular patterns of physical
activity. The use of planned stretching programs has also
been shown to help maintain flexibility with age.
Gender differences exist in flexibility. Girls tend to
be more flexible than boys at young ages, but the gen-
der difference decreases for adults. Greater flexibility of
females is generally attributed to anatomical differences
(e.g., wider hips) and hormonal influences.
Genetic factors can explain some individual variability
in flexibility. In some families, the trait for loose joints is
passed from generation to generation. This hy permobility
is sometimes referred to as joint looseness. Studies show that
people with this trait may be more prone to joint disloca-
tion. There is not much research evidence, but some experts
believe that those with hypermobility may also be more sus-
ceptible to athletic or dance injuries, especially to the knee,
ankle, and shoulder, and may be more apt to develop prema-
ture osteoarthritis.
Lack of use or misuse can cause reductions in
flexibility. Lack of physical activity is one of the major
factors contributing to poor flexibility. When muscles
are moved as part of normal daily activities or during
structured physical activity, the muscles and tendons get
stretched. Without this regular stimulation, flexibility
will decrease.
Improper exercise can lead to muscle imbalances that
may negatively impact flexibility. The most common
example is when body builders overdevelop their biceps
in comparison to their triceps. This leads to a muscle-
bound look characterized by a restricted range of motion
in the elbow joint. To avoid this, it is important to exer-
cise muscles through the full range of motion.
Health Benefits of Flexibility
and Stretching
Adequate flexibility is necessary for achieving and
maintaining optimal posture and movement patterns.
Good posture implies that the body’s segments are well-
aligned for efficient function and the least amount of
strain. Poor posture, on the other hand, places body seg-
ments at a biomechanical disadvantage, adding stress and
strain to the body with eventual wear and tear on the
joints and tendons. In many cases, poor posture occurs
over time due to poor habits. Sensory receptors in the
skin and joints appear to maintain poor posture through
feedback loops within the nervous system. The nervous
system keeps some muscles overly active and “tight” and
others overly quiet or “weak.” This feedback loop rein-
forces the muscle imbalance and the poor posture—long/
weak muscles on one side of the body are countered by
muscles on the opposite side of the body which are too
short/tight. Postural correction begins by improving the
flexibility of the shortened muscles, followed by strength-
ening of the “weak” muscles, and finally use of improved
body awareness.
Good flexibility and posture are also important for
optimal movement patterns of the limbs and trunk.
When good flexibility and posture are sacrificed, move-
ment patterns can be adversely affected, resulting in
joint motion that is either too restricted or too excessive.
Poor movement patterns add stress and strain to adjoin-
ing joint structures, leading to possible damage of the
joints or tendons. For example, motion of the shoulder
is adversely affected by a slouched posture. The arm can
be raised further over the head from an upright posture
than a slouched posture. To develop and maintain good
posture and movement patterns, muscles must have suf-
ficient flexibility and appropriate levels of strength. Addi-
tional information on posture and back care is presented
in Concept 1
1.
T E C H N O L O G Y U P D A T E
Software Facilitates Stretching at Work
Millions of people have sedentary office jobs that require
them to be at their desk all day, which isn’t good for your
body. New computer software may help address this prob-
lem. One commercially available program generates a series
of pop-up reminders that prompt you to periodically move
or take stretching breaks during the day. The user can con-
trol the frequency of the prompts; but if you skip the rec-
ommended prompt, an animated avatar delivers a stronger
message encouraging you to take a break. The theory
behind these tools is that the periodic prompts and remind-
ers will help encourage workers to take brief stretch breaks
to break up computer/sedentary time and reduce risk of
repetitive motion injuries and fatigue,.
What impact would this type of tool have on your daily activity
pattern?
ACTIVITY
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Concept 10 ▶ Flexibility 20
3
Flexibility contributes to functional fitness, which
has been shown to provide protection against risks
for injury. Many people stretch before exercise because
they believe it is important for reducing the likelihood
of getting injured. A good warm-up probably helps to
prepare the body for exercise, but the consensus in the
literature is that stretching does not reduce the risks
for musculotendinous injuries. However, this may be an
oversimplification. A recent study showed considerable
individual variability in effects. People that currently
stretched were at greater risk of injury if they stopped
stretching. People that never stretched were at greater
risk of injury if they started stretching. (See In the News
for details on this study).
While stretching may not directly impact risk of
injury, research is accumulating on the importance of
flexibility for overall injury prevention. In this recent
work, flexibility is a key contributor to a broader con-
struct of functional fitness which also incorporates core
strength, balance, and agility. Several different functional
movement batteries have been developed to identify indi-
viduals that may have poor levels of functional fitness.
The screening assessments typically score individuals
based upon the quality of motion during basic func-
tional movement tasks, each requiring a combination of
strength, balance, dynamic, and/or static flexibility. The
screening movements are used to identify asymmetries
and functional limitations that may predispose people to
injury. Studies have shown the utility of these tests for
predicting risks of injuries in football players, firefight-
ers, and military personnel. They have not been widely
used for preventive health screens, but this will likely
follow. Detailed information about functional fitness
would allow clinicians and health and fitness profession-
als to design effective interventions and track progress
over time.
Stretching is used to assist in rehabilitation from
injuries and for prevention. Physical therapists and
athletic trainers frequently prescribe stretching to help
patients regain normal range of motion or function or to
reduce pain after injury. Typical injuries include muscle
strains, ligamentous sprains, and open wounds. Joint stiff-
ness is also a common problem following surgery to the
shoulder, knee, and ankle or following immobilization
of any fracture in a cast or walking boot. In each case,
gentle stretching and range of motion exercises are used
to stimulate the healing process and add strength to the
healing tissues. Prior to stretching, tissues are warmed up
through the use of active exercise, massage techniques,
or modalities such as moist heat or ultrasound. Stretch-
ing is followed by exercises to increase strength within
Changing Your Stretching Routine May Impact Your Injury Risk
You may think that stretching prior to exer-
cise reduces the risk of injury, but research
doesn’t necessarily support this. A recent study followed
more than 2,000 runners to examine the impact of stretch-
ing on injury. Participants were assigned to one of four
groups: those who continued with their normal pre-run rou-
tine (maintaining an existing pattern of either stretching or
nonstretching) and those who altered their normal pre-run
routine (adding or deleting stretching to the existing routine).
Interestingly, the groups that were asked to alter their normal
pre-run routines (performing or not performing stretching)
demonstrated an increased risk of injury by 40 percent.
Those that continued their normal pre-run routine (whatever
it was) had no increased risk for injury. This suggests that
people may accommodate to stretching and that need for
(and response to) pre-exercise stretching may vary across
individuals.
Does this finding change your opinion of whether you should stretch
prior to exercise? Why or why not?
CC
Y
c
ACTIVITY
In the News
Health is available to Everyone for a
Lifetime, and it’s Personal
The concept of functional fitness has generated consid-
erable interest among health and fitness professionals.
Many fitness centers offer group classes focused on
improving functional fitness and these courses typically
involve flexibility and functional movement tasks.
Do you believe that flexibility and functional fitness provide
important benefits to your health now or do you think the
benefits may be more relevant as you age? How does this
influence your current views about stretching and flexibility
exercise?
ACTIVITY
Hypermobility Looseness or slackness in the joint
and of the muscles and ligaments (soft tissue) sur-
rounding the joint.
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204 Section 3 ▶ The Physical Activity Pyramid
the newly-gained range of motion and neuromuscular
activities to restore functional movement patterns. Physi-
cal therapists and athletic trainers prescribe stretching
to assist in rehabilitation and recovery, but it is up to the
patient to perform the recommended stretching exercises.
Stretching may contribute to treatment of
musculoskeletal pain. Stretching is often one compo-
nent of a larger treatment plan for addressing low back and
neck pain, muscle strains, and joint stiffness post surgery or
following immobilization. Because it is rarely used as the
sole treatment approach, it is difficult to isolate its effec-
tiveness from other treatments commonly provided. How-
ever, it has been shown to be as effective as strengthening or
massage in the treatment of chronic neck pain. Additionally,
movement-based activities such as tai chi have been shown
to facilitate movement and reduce low back pain.
Stretching may help relieve muscle cramps and
pain associated with myofascial trigger points.
Many people experience some form of muscle cramp-
ing during exercise. A muscle spasm or cramp may result
for various reasons, including overexertion, dehydration,
and heat stress. Stretching a cramped (but not a strained)
muscle will often help relieve the cramp. We have less
understanding of myofascial trigger points, but they
are typically more painful than cramps. They are char-
acterized by taut bands within skeletal muscle that have
a nodular texture. They are sensitive to touch and can
produce a radiating pain in specific regions of the body
when touched. Trigger points can be caused by trauma,
or occur after overuse or from prolonged spasm in the
muscles. The application of direct pressure on myofascial
trigger points followed by stretching has been shown to
help relieve pain. However, stretching has less effect on
relieving nonspecific areas of soft tissue tenderness in the
body (often referred to as tender points).
Stretching is probably ineffective in preventing
muscle soreness. In the past, it was suggested that
stretching during a cool-down will prevent muscular sore-
ness. In a controlled study, however, muscle soreness was
deliberately induced in a group of subjects. When half of
the group stretched immediately afterward and at inter-
vals for 48 hours, they had as much soreness as the group
who did not stretch. While studies have shown limited
effects of stretching on reducing soreness, it is still a useful
part of an overall cool-down routine following exercise.
Good flexibility can be beneficial to one’s ability to
function effectively at work and in daily life. Lack of
joint range of motion can negatively affect one’s ability to
perform tasks at work and daily activities such as driving a
car. It is well documented that as people grow older their
range of motion in the neck decreases
resulting in reduced ability to turn the
head and effectively anticipate move-
ments to the side and rear of the car.
Reduced range of motion can also increase risk of accidents
in automobiles and around the home. Regular stretching is
important to everyday functioning in a variety of settings.
Stretching Methods
Static stretching is the safest and most commonly
used method of stretching. Static stretching is done
slowly and held for a period of several seconds. The
probability of tearing the soft tissue is low if performed
properly. Static stretches can be performed with active
assistance or with passive assistance . When active
Physical therapists and athletic trainers use carefully planned
stretching exercise for treatment.
Trigger Points Especially irritable spots, usually
tight bands or knots in a muscle or fascia (a sheath
of connective tissue that binds muscles and other
tissues together). Trigger points often refer pain to
another area of the body.
Active Assistance An assist to stretch from an active
contraction of the opposing (antagonist) muscle.
Passive Assistance Stretch imposed on a muscle
with the assistance of a force other than the opposing
muscle.
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Concept 10 ▶ Flexibility 205
Figure 2 ▶ Examples of static, dynamic, and pre-contraction stretches of the calf muscles (gastronemius and
soleus). Muscles shown in dark pink are the muscles being contracted. Muscles shown in light pink are those
being stretched.
Passive
(Self Assisted)
B.
Active
A.
Passive
(Gravity Assisted)
C.
Passive
(Partner Assisted)
E.
Active
D.
Passive
(Gravity Assisted)
F.
Step 2: Relax calf
muscles and contract
dorsiflexors (shin
muscles) in active
stretch of calf.
H.
Step 1: From a
lengthened position,
contract calf muscle
s
isometrically against
resistance of rope
or partner.
G.
Step 3: Continue active
contraction while rope
provides passive assist.
I.
Contrasting Three Methods of Stretching
I. Static Stretch
II. Dynamic Stretch
III. Pre-Contraction Stretch (e.g., PNF Stretch)
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206 Section 3 ▶ The Physical Activity Pyramid
assistance is used, the opposing muscle group is contracted
to produce a reflex relaxation (reciprocal inhibition) in
the muscle being stretched. This enables the muscle to
be more easily stretched. For example, when doing a calf
stretch exercise (see Figure 2A, page 205), the muscles on
the front of the shin are contracted to assist in the stretch
of the muscles of the calf. However, active assistance to
static stretching has one problem. It is almost impossible
to produce adequate overload by simply contracting the
opposing muscles.
When passive assistance (see Figure 2B , C ) is used, an
outside force, such as a partner, aids in the stretching. For
example, in the calf stretch, passive assistance can be pro-
vided by another person, another body part ( Figure 2B ),
or gravity ( Figure 2C ). This type of stretch does not cre-
ate the relaxation in the muscle associated with active
assisted stretch. An unrelaxed muscle cannot be stretched
as far, and injury may happen. Therefore, it is best to
combine the active assistance with a passive assistance
when performing a static stretch. This gives the advan-
tage of a relaxed muscle and a sufficient force to provide
an overload to stretch it.
A good way to begin static stretching exercises is to
stretch until tension is first felt, back off slightly and hold
the position several seconds, and then gradually stretch
a little farther, back off, and hold. Decrease the stretch
slowly after the hold.
Dynamic stretching can be safe and effective if
performed properly. Dynamic stretching uses gradual
and controlled movement of body parts up to the limit
of a joint’s range of motion. Stretches may involve arm or
leg swings of increasing reach or increasing speed. The
key is to perform the movement in a controlled man-
ner through the normal range of motion. This approach
allows dynamic stretching to be a safe and efficient means
of using active stretching techniques. As with static
stretching, the movement can be provided either actively
or passively. For example, in the calf stretch shown
in Figure 2D , E , and F , the foot is actively bounced for-
ward by the antagonist muscle force or passively by an
assist from another person or gravity. Dynamic stretching
movements are common in many functional fitness pro-
grams and hybrid exercise classes.
Ballistic stretching is a specific type of dynamic
stretching but it presents risks if not done properly. A
ballistic stretch uses momentum to stretch the mus-
cles up to (and beyond) their normal range of motion.
Momentum is produced by a more vigorous body
motion, such as flinging a body part (bobbing) or rock-
ing it back and forth to create a bouncing movement.
The inherent problem with most ballistic stretching is
lack of control over the force and range of movement.
The forceful movement in ballistic stretching may
increase risks for injury. Ballistic stretching may be use-
ful for some athletes who do sports that involve ballistic
movements; however, this form of stretching is not rec-
ommended for most people.
Pre-contraction stretching activities such as PNF
have proven to be most effective at improving
flexibility. Proprioceptive neuromuscular facilita-
tion (PNF) stretching utilizes techniques to stimulate
muscles to contract more strongly (and relax more fully)
in order to enhance the effectiveness of stretching. The
contract-relax-antagonist-contract (CRAC) technique
is the most popular. CRAC PNF involves three specific
steps: (1) Move the limb so the muscle to be stretched
is elongated initially; then contract it ( agonist muscle )
isometrically for several seconds
(against an immovable object or the
resistance of a partner); (2) relax the
muscle; and (3) immediately stati-
cally stretch the muscle with the active assistance of the
antagonist muscle and an assist from a partner, gravity, or
another body part. Figure 2G , H , and I provide a detailed
illustration of how this technique is applied to the calf
stretch. Research shows that this and other types of PNF
stretch are more effective than a simple static stretch.
How Much Stretch Is Enough?
The appropriate amount of flexibility for health is
not known. Flexibility is joint specific, so the amount
of flexibility varies by joint. Norms are available for the
amount of flexibility for males and females of different
ages, but it is not clear how much is needed for health. For
example, there is little scientific evidence to indicate that
a person who can reach 2 inches past his or her toes on a
sit-and-reach test is less fit (or healthy) than a person who
VIDEO
3
Dynamic flexibility
is important in
many sports.
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Concept 10 ▶ Flexibility 207
can reach 8 inches past the toes. The standards presented
in the Lab Resource Materials are based on the best avail-
able evidence.
Too much flexibility (hyperflexibility) in a joint may
increase susceptibility to injury. While an appropri-
ate amount of flexibility is beneficial, too much flexibil-
ity can compromise the integrity of the joint and make
it less stable and prone to injury. Most muscles and
tendons can lengthen (extensibility) and return to their
normal length after appropriate stretching (elasticity).
However, short, tight muscles and tendons can be easily
overstretched (strained). Even more likely to be injured
are the ligaments that connect bone to bone. Liga-
ments and the joint capsule lack the elasticity and tensile
strength of the muscles and tendons. When involun-
tarily overstretched, they may remain in a lengthened
state or become ruptured (sprained). If this occurs, the
joint loses stability and is susceptible to chronic disloca-
tion, repeated sprains, and excessive wear and tear of the
joint surface. This is particularly true of weight-bearing
joints, such as the hip, knee, and ankle. Appropriate
stretching techniques can increase flexibility without
leading to hyperflexibility.
Specific FIT guidelines are established for safe and
effective stretching. Lifestyle and cardiovascular activ-
ity do little to develop flexibility. To build this important
part of fitness, stretching exercises from step 5 of the
pyramid are essential (see Figure 3 ). The American Col-
lege of Sports Medicine (ACSM) recently released new
guidelines for effective stretching. The guidelines indi-
cate that stretching can be done using static stretches
Avoid Inactivity
Energy Balance
Energy Out
(Activity)
Energy In
(Diet)
Vigorous Sports
and Recreation
Vigorous
Aerobics
Moderate
Physical Activity
Flexib
ility
Exercises
Muscle
Fitne
ss
Exercises
• Tennis
• Hike
• Yoga
• Stretch
• Jog
• Bike
• Aerobic dance
• Walk
• Yard work
• Golf
• Calisthenics
• Resistance
exercise
STEP 1
STEP 2
STEP 3
STEP
4
STEP
5
Figure 3 ▶ Flexibility or stretching exercises should be selected from step 5 of the physical activity pyramid.
Source: C. B. Corbin
Reciprocal Inhibition Reflex relaxation in stretched
muscle during contraction of the antagonist.
Ballistic Stretch Bouncing or bobbing to facilitate
lengthening of the muscle-tendon unit.
Proprioceptive Neuromuscular Facilitation
(PNF) A stretching technique that incorporates
muscle contraction prior to stretch.
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208 Section 3 ▶ The Physical Activity Pyramid
Table 1 ▶ FIT Formula for Stretching—Thresholds and Target Zones
Static Ballistic PNF (CRAC)
Threshold Target Threshold Target Threshold Target
Frequency At least 2 to 3
days a week
(threshold)
2–7 days a week At least 2 to 3
days a week
(threshold)
2–7 days a week At least 2 to 3
days a week
(threshold)
2–7 days a week
Intensity Stretch to the
point of feeling
tightness or
slight discomfort.
Holding a static
stretch for 10–30
seconds is
recommended
for most adults.
In older persons,
holding a stretch
for 30–60
seconds may
give greater
benefit.
Add passive
assistance.
Avoid overstretching
or pain.
Stretch beyond
normal length
with gentle
bounce or swing.
Do not exceed
10% of static
range of motion.
Same as ballistic
threshold
Use a 3- to
6-second
contraction
at 20%–75%
maximum
voluntary
contraction
followed by a 10-
to 30-second
assisted stretch.
Perform 4–5 reps
with 6-second
contractions,
each followed by
a 10–30-second
assisted stretch.
Thirty seconds
between reps.
Time Perform 2
repetitions. Hold
each for 15
seconds. Rest 30
seconds between
reps.
Perform 3-4
repetitions. Hold
each for 15–60
seconds. Rest 30
seconds between
reps.
Perform 1 set
involving 30
continuous
seconds.
Perform 2–3 sets
of 30 consecutive
seconds of motion.
Rest 1 minute
between sets.
Perform 2
repetitions.
Thirty seconds
between reps.
Perform 3-4
repetitions. Rest 30
seconds between
reps. Rest 1 minute
between sets.
(active or passive), dynamic stretches, or pre-contraction
stretches. The recommended threshold and target zones
for safe and effective stretching are provided in Table 1 .
The threshold of training refers to the minimum amount
of stretching required to make gains and/or maintain
a level of flexibility. Target zone refers to the overload
needed to make significant gains in flexibility or to prog-
ress one’s level of flexibility following a plateau.
Stretching should ideally be performed at least
2 to 3 days a week (frequency). The ACSM guide-
lines suggest that 2 to 3 days are effective for increasing
range of motion, but they point out that gains are greater
if performed daily. However, like other forms of exercise,
1 day a week is still better than none. The ACSM guide-
lines emphasize that stretching is most effective when
the muscles are warm. Performing a light to moderate
aerobic warm-up activity prior to stretching can increase
internal muscle temperature and the extensibility of soft
tissues, allowing for a more effective stretch. Since some
people do not want to interrupt their workout in the
middle, they prefer to stretch at the end. Stretching at
the end of the workout serves a dual purpose—building
flexibility and cooling down. It is, however, appropriate
to stretch at any time in the workout after the muscles
have been active and are warm. If you prefer to include
it at the beginning of a workout, ease into the stretching
gradually.
To increase the length of a muscle, stretch it more
than its normal length but do not overstretch it
(intensity). The best evidence suggests that muscles
should be stretched to about 10 percent beyond their
normal length to bring about an improvement in flexibil-
ity. More practical indicators of the intensity of stretch-
ing are to stretch just to the point of tension or just before
discomfort. Exercises that do not cause an overload will
not increase flexibility. Once adequate flexibility has been
achieved, range of motion (ROM) exercises that do
not require stretch greater than normal can be performed
to maintain flexibility and joint range of motion.
To increase flexibility, stretch and hold muscles
beyond normal length for an adequate amount
of time (intensity). When a muscle is stretched
(lengthened), the stretch reflex acts to resist the stretch
(see Figure 4 ). Sensory receptors (A) in the muscle-
tendon unit send a signal to the sensory neurons (B), and
these neurons signal the motor neurons (C) to contract
(shorten) the muscles (D). This reflex restricts initial
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Concept 10 ▶ Flexibility 209
efforts at stretching; however, if the stretch is held and
maintained over time, the stretch reflex subsides and
allows the muscle to lengthen (this phase is called the
development phase because this is when improvements
occur). Neurological evidence documenting the activa-
tion of the stretch reflex during stretching is not avail-
able, but the reflex mechanism clearly explains why it
is important to hold a stretch for an extended period of
time. Attempts to stretch for shorter durations are lim-
ited by the opposing action of the opposing muscles (see
Figure 4 ). Guidelines suggest that to get the most benefit
for the least effort stretches should be held between 10
and 30 seconds. The ACSM suggests that 10 seconds may
be an adequate threshold when performing PNF (stretch
after muscle contraction).
To increase flexibility, repeat stretching exercises
an adequate number of times (time). Figure 5 shows
the typical responses to a stretched muscle during a series
of stretches. Tension in a muscle decreases as the stretch
is held. Most of the decrease occurs in the first 15 sec-
onds. The tension curves are lower with each successive
repetition of stretching, which is why multiple sets of
stretching are recommended. The ACSM recommends
2–4 reps but, as shown in Figure 5, up to 5 reps can be
beneficial.
Principles of overload and progression can be
applied to a regular stretching program to both
improve and maintain flexibility. Threshold of train-
ing refers to the minimum amount of stretching required
to make gains and/or maintain a level of flexibility. Target
zone refers to the overload needed to make significant
gains in flexibility or to progress one’s level of flexibility
following a plateau. There are no accepted guidelines
for scientifically progressing stretching exercises, but the
principles of overload and specificity described for mus-
cle fitness would apply. Principles of threshold and target
zones are presented in Table 1 for each type of stretching.
Regular stretching exercise (based on the FIT
guidelines) leads to improved range of motion,
but the mechanisms of action are not completely
understood. As previously described, the increases in
muscle length and reductions in stiffness immediately
following stretching are temporary. However, regular
stretching does lead to improvements in flexibility. Many
scientists believe that the resulting gains in motion fol-
lowing stretching are due as much to sensory changes
in the nervous system as to increased muscle length or
reduced muscle stiffness. According to the theory, stretch-
ing leads to increases in stretch tolerance which causes
people to perceive discomfort at greater ranges of motion.
Spinal
cord
Motor
neuron
(C)
Sensory
receptor
Direction
of impulse
Sensory neuron (B)
Patella
Receptor—ends of (A)
sensory neuron
Effector
quadriceps femoris
muscle group
(D)
Figure 4 ▶ The stretch reflex.
Source: Shier, Butler, and Lewis.
M
u
sc
le
t
en
si
o
n
Time in seconds
10
Stretch 1
Stretch 2
Stretch 3
Stretch
4
Stretch 5
20 30 40 50 60
Figure 5 ▶ Typical responses to a stretched muscle
during a series of stretches.
Range of Motion (ROM) Exercises Exercises
used to maintain existing joint mobility (to prevent
loss of ROM).
Stretch Tolerance Greater stretch for the same
pain level.
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210 Section 3 ▶ The Physical Activity Pyramid
For example, an individual that regularly performs
stretches for tight hamstring muscles may see improve-
ments in range of motion during a straight leg raise. The
sensory theory explains that much of the improvement in
range of motion is due to a change in sensation. In other
words, the perceived onset of pain is now further toward
the end range of motion. The sensory theory has also been
used to explain individual differences in flexibility. Persons
that are hypermobile or very flexible may not have longer
muscles or looser joints but rather perceive the physical
limits later in the arc of motion.
Flexibility-Based Activities
The popularity of flexibility-based activity has
increased in recent years. A recent survey of World-
wide Fitness Trends indicates that of the 20 top trends, 6
relate to flexibility. Included are yoga, functional fitness
training, special training for older adults, core training,
Pilates, and sport-specific training. Data from the Sport-
ing Goods Manufacturers Association (SGMA) also indi-
cates that yoga and tai chi are among the fastest growing
activities. The popularity of these activities suggests
that people may be more interested in flexibility-related
activity when it is presented in an engaging and interac-
tive format. Some of the growth may also be attributed
to increased acceptance of these activities by medical
professionals. Distinctions between these activities are
provided below.
Tai chi is one of the safest and more established
movement disciplines. Tai chi (often translated as
Chinese shadow boxing) is considered a martial art but
involves the execution of slow, flowing movements called
“forms.” Numerous studies have supported the benefits of
tai chi on a variety of health-related parameters, includ-
ing flexibility, muscular strength, balance, posture, pain
relief, stress, weight reduction, and cardiovascular fitness.
Recent studies have shown that tai chi can be particularly
useful for people with arthritis, strengthening muscles
by using both isometric (holding) and isotonic (mov-
ing) muscle contractions. Studies have shown strength
gains of 15 to 20 percent in elderly tai chi participants.
This improved strength translates into joint protection
and stability, as well as increased strength for daily liv-
ing tasks. The highly cited FICSIT study demonstrated
significant benefits of tai chi on balance and risk of falls in
the elderly. Young participants can benefit as well.
Yoga is a diverse and controversial movement
discipline. Yoga is an umbrella term that refers to a
number of yoga traditions. The foundation for most
yoga traditions is hatha yoga, which incorporates a
variety of asanas (postures). Iyengar yoga is another
popular variation. It uses similar asanas as hatha yoga
but uses props and cushions to enhance the move-
ments. Emphasis is placed on balance through coor-
dinated breathing and precise body alignment. Most
forms of yoga are considered to be safe, but positions
in some of the extreme yoga disciplines have been crit-
icized by movement specialists and physical therapists
as causing more harm than good, so care should be
used when performing some movements. Evidence for
health benefits of yoga are not as established as those
for tai chi.
Pilates classes are a popular offering at many
fitness centers and health clubs. Pilates is a thera-
peutic exercise regimen that combines strength and flex-
ibility movements. It was originally developed as more of
a therapeutic form of exercise, but it is increasingly being
promoted as an overall form of conditioning. Emphasis
in Pilates exercise is on core stabilization movements and
enhanced body awareness, but classes typically include
some stretching activities as well.
Yoga and other movement classes involving stretching are
increasingly popular.
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Concept 10 ▶ Flexibility 211
Check the qualifications of instructors conducting
flexibility-related classes. The popularity of flexibil-
ity exercise has led to an increasing array of classes, vid-
eos, and resources available for tai chi, yoga, and Pilates.
When reviewing these programs and materials, keep
in mind that presently there is not a strong scientific
basis for yoga and Pilates programming. When per-
formed safely with a qualified instructor, they probably
can be beneficial. However, many of the positions and
movements may be contraindicated exercises that could
increase risk for injuries. If you choose to participate in
these activities, seek qualified instructors and progress
gradually. See Concept 11 for more information about
safe and contraindicated exercises.
Guidelines for Safe and Effective
Stretching Exercise
There is a correct way to perform flexibility
exercises. Remember that stretching can cause muscle
soreness, so “easy does it.” Start at your threshold if you
are unaccustomed to stretching a given muscle group;
then increase within the target zone. The list in Table 2
will help you gain the most benefit from your exercises.
Stretching is specific to each muscle or muscle
group. No single exercise can produce total flexibility.
For example, stretching tight hamstrings can increase the
A CLOSER LOOK
Potent Health Benefits from Tai Chi
Tai chi can improve flexibility, improve balance, improve
lower leg strength, improve immune capacity, build bone
density, reduce fall risk, improve cardiovascular func-
tion, reduce stress, and improve quality of life. The evi-
dence for most health outcomes has been substantiated
in well-controlled clinical trials. Interestingly, scientists
really don’t have a good sense of how tai chi works to
improve these outcomes. The movements are very slow
and controlled, so it is likely that the effects are related
in part to the concentration and focus required to exe-
cute the various movements rather than the movements
themselves.
In what ways could you benefit from tai chi?
Potent H
A
BeHealtht Health
ACTIVITY
T able 2 ▶ Do and Don’t List for Stretching
Do Don’t
Do warm muscles before you attempt to stretch them. Don’t stretch to the point of pain. Remember, you want to stretch
muscles, not joints.
Do stretch with care if you have osteoporosis or arthritis. Don’t use ballistic stretches if you have osteoporosis or arthritis.
Do use static or PNF stretching rather than ballistic stretching if
you are a beginner.
Don’t perform ballistic stretches with passive assistance unless you
are under the supervision of an expert.
Do stretch weak or recently injured muscles with care. Don’t ballistically stretch weak or recently injured
muscles.
Do use great care in applying passive assistance to a partner; go
slowly and ask for feedback.
Don’t overstretch a muscle after it has been immobilized (such as
in a sling or cast) for a long period.
Do perform stretching exercises for each muscle group and at each
joint where flexibility is desired.
Don’t bounce muscles through excessive range of motion. Begin
ballistic stretching with gentle movements and gradually increase
intensity.
Do make certain the body is in good alignment when stretching. Don’t stretch swollen joints without professional supervision.
Do stretch muscles of small joints in the extremities first; then
progress toward the trunk with muscles of larger joints.
Don’t stretch several muscles at one time until you have stretched
individual muscles. For example, stretch muscles at the ankle, then
the knee, then the ankle and knee simultaneously.
length of these muscles but will not lengthen the muscles
in other areas of the body. For total flexibility, it is impor-
tant to stretch each of the major muscle groups and to
use the major joints of the body through full range of
normal motion.
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212 Section 3 ▶ The Physical Activity Pyramid
A flexibility workout should be done when the body
is warmed up and when adequate time is available
to perform stretching exercises . As noted in Concept
3, stretching can be done as one part of a comprehensive
warm-up routine. While a warm-up
may have benefits, stretching before
exercise is not a substitute for a
regular stretching program to build
flexibility. If you are not flexible and have short muscles,
a single warm-up cannot make you flexible. Regular
stretching is needed to see improvements in flexibility.
The consensus is that stretching exercise is most
effective when the body is already warmed up. For this
reason, some people prefer to perform their stretch-
ing routine at the end of a workout when muscles are
warm. Others prefer to perform their flexibility work-
out at a time when they can concentrate specifically
on building flexibility. In either case, sufficient time
should be allowed to ensure that the exercises are done
correctly.
Specialized equipment may help improve the
effectiveness and ease of stretching exercise. One
advance in equipment technology for flexibility training
is the development of “stretching ropes.” These ropes
have multiple loops, which enable individuals to change
the length of the rope and perform a variety of different
exercises. This feature provides an easy way to put mus-
cles on stretch and to vary the degree of stretch. Because
you can apply resistance through the elastic straps, it is
even possible to perform PNF stretching without the
assistance of a partner. A variety of stretching ropes are
available on the market, and they all provide similar
functionality.
To get the most out of yoga, tai chi, and Pilates classes, find a
qualified instructor.
Strategies for Action
An important step for developing and
maintaining flexibility is assessing
your current status. There are dozens of tests of flexibility.
Four tests that assess range of motion in the major joints of
the body, that require little equipment, and that can be easily
administered are presented in the Lab Resources Materials at
the end of this concept. In Lab 10A , you will get an opportu-
nity to try these self-assessments. Perform these assessments
before you begin your regular stretching program and use
these assessments to reevaluate your flexibility periodically.
Scores on flexibility tests may be influenced by several
factors. Your range of motion at any one time may be
influenced by your motivation to exert maximum effort,
warm-up preparation, muscular soreness, tolerance for
pain, room temperature, and ability to relax. Recent stud-
ies have found a relationship between leg or trunk length
and the scores made on the sit-and-reach test. The sit-and-
reach test used in this book is adapted to allow for differ-
ences in body build.
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Concept 10 ▶ Flexibility 213
Web Resources
Functional Movement.com (functional fitness information)
www.Functionalmovement.com
Gray Institute (information on functional fitness) www
. Grayinstitute.com
National Center for Complementary and Alternative Medicine
http://nccam.nih.gov/
Suggested Readings
ACSM. 2010. ACSM’s Guidelines for Exercise Testing and
Prescription. 8th ed. Philadelphia: Lippincott, Williams &
Wilkins, Chapter 7.
Kay, A. D., and A. Blazevich. J. 2011. Effect of acute static
stretch on maximal muscle performance: A systematic
review. Medicine and Science in Sports and Exercise. Available
at www.ncbi.nlm.nih.gov/pubmed/21659901
Kiesel, K., P. Plisky, and M. Voight. 2007. Can serious injury in
professional football be predicted by a preseason functional
movement screen? North American Journal of Sports and
Physical Therapy 2(3):147–150.
Kovacs, M. 2009. Dynamic Stretching: The Revolutionary New
Warm-up Method to Improve Power, Performance and Range of
Motion. Berkeley, CA: Ulysses Press.
McAttee, R., and J. Charland. 2011. Facilitated Stretching. 4th ed.
Champaign, IL: Human Kinetics. (iPad version with video)
O’Connor, F. G., et al. 2011. Functional Movement Screen-
ing: Predicting Injuries in Officer Candidates. Medicine and
Science in Sports and Exercise 43(12):2224–2230.
Page, P. 2012. Current concepts in muscle stretching for exer-
cise and rehabilitation. The International Journal of Sports
Physical Therapy 7(1):109–118.
Pereles, D., A. Roth, and D. J. S. Thompson. 2010. A large, rando-
mized, prospective study of the impact of a pre-run stretch on the
risk of injury in teenage and older runners. USA Track and Field.
http://www.usatf.org/stretchStudy/StretchStudyReport
Thompson, W. R. (2011). Worldwide survey of fitness trends
for 2012. ACSM’s Health and Fitness Journal 15(6):9–1
8.
Weppler, C. H., and S. P. Magnusson. 2010. Increasing muscle
extensibility: A matter of increasing length or modifying
sensation? Physical Therapy 90(3):438–450.
Yeh, G. Y., et al. 2011. Tai chi exercise in patients with chronic
heart failure: A randomized clinical trial. Archives of Internal
Medicine 171(8):750–757.
Select exercises that promote flexibility in all areas of the
body. For total body flexibility, 8 to 10 stretching exercises
for the major muscle groups of the body are recommended.
Table 3 describes some of the most effective exercises for
a basic flexibility routine. Individual stretching needs may
vary, but the most common areas to target are the trunk, the
legs, and the arms. A variety of stretches for these areas are
described in Tables 3 , 4 , and 5 . Most are designed for static
stretching, but the pectoral stretch and back-saver hamstring
stretch use PNF techniques. Ballistic stretching exercises are
discussed in more detail in Concept 12 .
Keeping records of progress will help you adhere to a
stretching program. An activity logging sheet is provided in Lab
10B to help you keep records of your progress as you regularly
perform stretching exercises to build and maintain good flexibility.
ACTIVITY
Healthy People
ACTIVITY
2020
The objectives listed below are societal goals designed to
help all Americans improve their health between now and the
year 2020. They were selected because they relate to the con-
tent of this concept.
• Increase proportion of people who regularly perform exer-
cises for flexibility.
• Reduce sports and recreation injuries.
• Reduce percentage of adults who do no leisure-time activity.
• Increase access to employee-based exercise facilities and
programs.
A national goal is to increase the proportion of people who regularly
perform flexibility exercises. Why is flexibility exercise often not
prioritized in an exercise program, even by regular exercisers? What
specific benefits would you gain from flexibility exercise?
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T
a
b
le
3
Trapezius
Table 3 The Basic Eight for Trunk Stretching Exercises
1. Upper Trapezius/Neck
Stretch
This exercise stretches the muscles on the back and
sides of the neck. To stretch the right trapezius, place
left hand on top of your head. Gently look down toward
your left underarm, tucking your chin toward your chest.
Let the weight of your arm gently draw your head for-
ward. Hold. Repeat to the opposite side.
Variations: The stretch above may be modifi ed to
stretch the muscles on the front and sides of the neck.
Start from the stretch position described above. Keep your
left ear near your left shoulder. Turn
your head slightly and look up
toward the ceiling, lifting
your chin 2–3″. Hold.
3. Pectoral Stretch
This exercise stretches the chest muscles (pectorals).
1. Stand erect in doorway, with arms raised 45 degrees,
elbows bent, hands grasping the doorjamb, and feet
in front-stride position. Press out on door frame, con-
tracting your arms maximally for 6 seconds. Relax and
shift weight forward on legs. Lean into doorway, so that
the muscles on the front of
your shoulder joint and chest
are stretched. Hold.
2. Repeat with your arms
raised 90 degrees.
3. Repeat with your arms
raised 135 degrees. This
exercise is useful to prevent
or correct round shoulders
and sunken chest.
2. Chin Tuck
This exercise stretches the muscles at the base of
the skull and reduces headache symptoms. Sit up
straight, with chest lifted and
shoulders back. Gently tuck in
the chin by making a slight
motion of nodding “yes.”
Imagine a string attached
to the back of your head,
which is pulling your head
upward, like a puppet. As
your chin draws inward,
attempt to lengthen the
back of your neck. Hold.
4. Lateral Trunk Stretch
This exercise stretches the trunk muscles. Sit on the floor.
Stretch the left arm over your head, to the right. Bend to
the right at the waist, reaching as far to the right as pos-
sible with your left arm and as
far as possible to the left with
your right arm; hold. Do not let
your trunk rotate. Repeat on
the opposite side. For less
stretch, your overhead
arm may be
bent at the
elbow. This
exercise can
be done in the
standing posi-
tion, but is less
effective.
Longissimus
capitis
Semispinalis
capitis
Splenius
capitis
Semispinalis
cervicis
Pectoralis
major
Pectoralis
minor
Latissimus
dorsi
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215
T
a
b
le
3
Erector
spinae
Gluteus
maximus
5. Leg Hug
This exercise stretches the hip and back extensor
muscles. Lie on your back. Bend one leg and grasp your
thigh under the knee. Hug it to your chest. Keep the
other leg straight and on the floor. Hold. Repeat with the
opposite leg.
7. Trunk Twist
This exercise stretches the trunk muscles and the
muscles on the outside of the hip. Sit with your right leg
extended, left leg bent and crossed over the right knee.
Place your right arm on the left side of the left leg and
push against that leg while turning
the trunk as far as possible to
the left. Place the left hand
on the floor behind the but-
tocks. Stretch and hold.
Reverse position and
repeat on the opposite
side.
The Basic Eight for Trunk Stretching Exercises Table 3
8. Spine Twist
This exercise stretches the trunk rotators and lateral
rotators of the thighs. Start in hook-lying position, arms
extended at shoulder level. Cross your left knee over
the right. Push the right knee to the floor, using the
pressure of the left knee and leg. Keep your arms and
shoulders on the floor while touch-
ing your knees to the floor on the
left. Stretch and
hold. Reverse
leg position
and lower
your knees to
right.
6. Heel Si t
This exercise stretches the muscles of the lower back.
Begin on hands and knees with eyes looking down
toward the floor. Keep your hands on the floor directly
below your shoulders. Rock backwards, bringing your
buttocks toward your heels. Gently round the lower
back outward. Hold.
Erector
spinae
Gluteus
maximus
Latissimus
dorsi
Glutea
ls
Erector
spinae
Back
extensors
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Gastrocnemius
Shin
muscles
Table 4 The Basic Eight for Leg Stretching Exercises
1. Calf Stretch
This exercise stretches the calf
muscles and Achilles tendon. Face a wall with your feet
2′ or 3′ away. Step forward on your left foot to allow
both hands to touch the wall. Keep the heel of your right
foot on the ground, toe turned in slightly, knee straight,
and buttocks tucked in. Lean forward by
bending your front knee and arms
and allowing your head to move
nearer the wall. Hold. Bend your
right knee, keeping your heel
on fl oor. Stretch and hold.
Repeat with the other leg.
3.
Back-Saver Hamstring Stretch
This exercise stretches the hamstrings and calf muscles
and helps prevent or correct backache caused in part
by short hamstrings. Sit on the fl oor with the feet against
the wall or an immovable object. Bend left knee and
bring foot close to buttocks. Clasp hands behind back.
Contract the muscles on the back of the upper leg (ham-
strings) by pressing the heel downward toward the fl oor;
hold; relax. Bend forward from hips, keeping lower back
as straight as possible. Let bent knee rotate outward
so trunk can move forward. Lean forward keeping back
fl at; hold and repeat on
each leg.
2. Shin Stretch
This exercise relieves shin muscle soreness by stretch-
ing the muscles on the front of the shin. Kneel on both
knees, turn to the right, and press down and stretch
your right ankle with your right hand.
Move your pelvis forward. Hold.
Repeat on the opposite side.
Except when they are sore, most
people need to strengthen
rather than stretch these
muscles.
4.
Hip and Thigh Stretch
This exercise stretches the hip (iliopsoas) and thigh mus-
cles (quadriceps) and is useful for
people with lordosis and back prob-
lems. Place your right knee directly
above your right ankle and stretch
your left leg backward so your knee
touches the fl oor. If necessary, place
your hands on fl oor for balance.
1. Tilt the pelvis backward by
tucking in the abdomen and
flattening the back.
2. Then shift the weight for-
ward until a stretch is
felt on the front of
the thigh; hold.
Repeat on the
opposite side.
Caution: Do
not bend your
front knee
more than 90
degrees.
Hamstrings
2 1
Iliopsoas
Quadriceps
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5. Sitting Stretch
This exercise stretches the muscles on the inside of the
thighs. Sit with the soles of your feet together; place
your hands on your knees or ankles and lean your fore-
arms against your knees; resist (contract) by attempting
to raise your knees. Hold. Relax and press the knees
toward the fl oor as far as possible; hold. This exercise is
useful for pregnant women and
anyone whose thighs tend to
rotate inward, causing back-
ache, knock-knees, and
fl at feet.
7. Inner Thigh Stretch
This exercise stretches the muscles of the inner thigh.
Stand with feet spread wider than shoulder-width apart.
Shift weight onto the right foot and bend the right knee
slightly. Straighten left knee and raise toes of left foot off
the fl oor. Lean forward slightly from the waist keeping
back straight/shoulders back. Shift weight back over the
right foot by moving hips diagonally
away from the left foot. Hold.
Repeat in the opposite direction.
The Basic Eight for Leg Stretching Exercises Table 4
6. Lateral Thigh and Hip Stretch
This exercise stretches the muscles and connective tis-
sue on the outside of the legs (iliotibial band and tensor
fascia lata). Stand with your left side to the wall, left arm
extended and palm of your hand fl at on
the wall for support. Cross the
left leg behind the right leg
and turn the toes of both
feet out slightly. Bend
your left knee slightly
and shift your pelvis
toward the wall (left)
as your trunk bends
toward the
right. Adjust
until tension is
felt down the
outside of the
left hip and
thigh. Stretch
and hold.
Repeat on the
other side.
Adductors
Iliotibial
band
Piriformis
Superior
gemellus
Obturator
internus
Inferior
gemellus
Adductors
8. Deep Buttock Stretch
This exercise stretches the deep buttock muscles, such
as the piriformis. Lie on your back with knees bent and
one ankle crossed over opposite knee. Hold thigh of
bottom leg and pull gently toward your chest. Hold.
Repeat on the other side.
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Triceps
Latissimus
dorsi
Posterior
Cuff
Forearm
flexor
or
extensors
Table 5 The Basic Four for Arm Stretching Exercises
1. Forearm Stretch
This exercise stretches the muscles on the front and
back sides of the lower arm. It is particularly useful in
relieving stress from excessive keyboarding activity.
Hold your right arm straight out in front, with your palm
facing down. Use your left hand to gently stretch the
fi ngertips of your right hand toward the fl oor. Hold. Turn
your right arm over with your palm facing up. Use your
left hand to gently
stretch the fi ngertips
of your right hand
toward the fl oor.
Hold. Repeat on the
opposite side.
2. Back Scratcher
Stand straight with back of left hand held fl at against
back. With right hand, throw one end of a towel over
right shoulder from front to back. Grab end of towel with
left hand. Pull down gently on
the towel with right hand, rais-
ing arm in back as high as is
comfortable. Hold. Repeat
to opposite side.
3. Overhead Arm Stretch
This exercise stretches the triceps and latissimus dorsi
muscles. Stretch your arms up
overhead. Grasp your right
elbow with your left hand.
Pull your right elbow
back behind your
head. Hold. Repeat
on opposite side.
4. Arm Pretzel
This exercise stretches the shoulder muscles (lateral
rotators). Stand or sit with your elbows fl exed at right
angles, palms up. Cross your right arm over your left;
grasp your right thumb with your left hand and pull gen-
tly downward, causing your right arm
to rotate laterally. Stretch and hold.
Reverse arm position and repeat
on your left arm.
Pectoralis
Deltoid
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F
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sts
Lab Resource Materials: Flexibility Tests
Directions: To test the flexibility of all joints is impractical. These tests are for joints used
frequently. Follow the instructions carefully. Determine your flexibility using Chart
1.
Test
1. Modified Sit-and-Reach (Flexibility Test of
Hamstrings)
a. Remove shoes and sit on the floor. Place the
sole of the foot of the extended leg flat against
a box or bench. Bend opposite knee and place
the head, back, and hips against a wall with a
90-degree angle at the hips.
b. Place one hand over the other and slowly
reach forward as far as you can with arms fully
extended. Keep head and back in contact with
the wall. A partner will slide the measuring stick
on the bench until it touches the fingertips.
c. With the measuring stick fixed in the new posi-
tion, reach forward as far as possible, three
times, holding the position on the third reach
for at least 2 seconds while the partner records
the distance on the ruler. Keep the knee of the
extended leg straight (see illustration).
d. Repeat the test a second time and average the
scores of the two trials.
Test
2. Shoulder Flexibility (“Zipper” Test)
a. Raise your arm, bend your elbow, and reach
down across your back as far as possible.
b. At the same time, extend your left arm down
and behind your back, bend your elbow up
across your back, and try to cross your fingers
over those of your right hand as shown in the
accompanying illustration.
c. Measure the distance to the nearest half-inch.
If your fingers overlap, score as a plus. If they
fail to meet, score as a minus; use a zero if your
fingertips just touch.
d. Repeat with your arms crossed in the opposite
direction (left arm up). Most people will find
that they are more flexible on one side than the
other.
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Test
3. Hamstring and Hip Flexor Flexibility
a. Lie on your back on the floor beside a wall.
b. Slowly lift one leg off the floor. Keep the other
leg flat on the floor.
c. Keep both legs straight.
d. Continue to lift the leg until either leg begins to
bend or the lower leg begins to lift off the floor.
e. Place a yardstick against the wall and under-
neath the lifted leg.
f. Hold the yardstick against the wall after the leg
is lowered.
g. Using a protractor, measure the angle created
by the floor and the yardstick. The greater the
angle, the better your score.
h. Repeat with the other leg.*
*Note: For ease of testing, you may want to draw angles on a piece of
posterboard, as illustrated. If you have goniometers, you may be taught to
use them instead.
Test
4. Trunk Rotation
a. Tape two yardsticks to the wall at shoulder height,
one right side up and the other upside down.
b. Stand with your left shoulder an arm’s length (fist
closed) from the wall. Toes should be on the line,
which is perpendicular to the wall and even with
the 15-inch mark on the yardstick.
c. Drop the left arm and raise the right arm to the
side, palm down, fist closed.
d. Without moving your feet, rotate the trunk to the
right as far as possible, reaching along the yard-
stick, and hold it 2 seconds. Do not move the feet
or bend the trunk. Your knees may bend slightly.
e. A partner will read the distance reached to the
nearest half-inch. Record your score. Repeat
two times and average your two scores.
f. Next, perform the test facing the opposite direc-
tion. Rotate to the left. For this test, you will use
the second yardstick (upside down) so that, the
greater the rotation, the higher the score. If you
have only one yardstick, turn it right side up for
the first test and upside down for the second test.
15-inch mark
Chart 1 Flexibility Rating Scale for Tests 1–4
Men Women
Classification Test 1 Test 2 Test 3 Test 4 Test 1 Test 2 Test 3 Test 4
Right
Up
Left
Up
Right
Up
Left
Up
High performance* 16+ 5+ 4+ 111+ 20+ 17+ 6+ 5+ 111+ 20.5 or >
Good fitness zone 13–15 1–4 1–3 80–110 16–19.5 14–16 2–5 2–4 80–110 17–20
Marginal zone 10–12 0 0 60–79 13.5–15.5 11–13 1 1 60–79 14.5–16.5
Low zone <9 <0 <0 <60 <13.5 <10 <1 <1 <60 <14.5
*Though performers need good flexibility, hypermobility may increase injury risk.
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Lab 10A Evaluating Flexibility
Name Section Date
Purpose: To evaluate your flexibility in several joints
Procedures
1. Take the flexibility tests outlined in Lab Resource Materials, pages 219–220.
2. Record your scores
in the Results section.
3. Use Chart 1 in Lab Resource Materials (page 218) to determine your ratings on the self-assessments; then place
an X over the circle for the appropriate rating.
Results
Flexibility Scores and Ratings
Record Scores Record Ratings
High Performance Good Fitness Marginal
Low
Modified sit-and-reach
Test 1 Left
Right
Zipper
Test 2 Left
Right
Hamstring/hip flexor
Test 3 Left
Right
Trunk rotation
Test 4 Left
Right
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Do any of these muscle groups need stretching? Check yes or no for each muscle group.
Yes
No
Back of the thighs and knees (hamstrings)
Calf muscles
Lower back (lumbar region)
Front of right shoulder
Back of right shoulder
Front of left shoulder
Back of left shoulder
Most of the body
Trunk muscles
Conclusions and Implications: In several sentences, discuss your current flexibility and your flexibility needs for
the future. Include comments about your current state of flexibility, need for improvement in specific areas, and special
flexibility needs for sports or other special activities.
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Chart 1 Stretching Exercise Survey
1. Determine your current stage for flexibility exercise. Check only the stage that represents your current activity level.
Precontemplation. I do not meet flexibility exercise guidelines and have not been thinking about starting.
Contemplation. I do not meet flexibility exercise guidelines but have been thinking about starting.
Preparation. I am planning to start doing regular flexibility exercises to meet guidelines.
Action. I do flexibility exercises, but I am not as regular as I should be.
Maintenance. I regularly meet guidelines for flexibility exercises.
2. What are your primary goals for flexibility exercise?
General conditioning
Sports improvement (specify sport:___________________)
Health benefits
3. Are you currently involved in a regular stretching program? If yes, describe your program. If no, describe barriers that have
prevented you from stretching.
Yes
No
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Lab 10B Planning and Logging Stretching Exercises
Name Section Date
Purpose: To set 1-week lifestyle goals for stretching exercises, to prepare a stretching for flexibility plan, and to
self-monitor progress in your 1-week plan
Procedures
1. Using Chart 1, provide some background information about your experience with stretching exercise, your goals,
and your plans for incorporating these exercises into your normal exercise routine.
2. In Chart 2, keep a log of your actual participation in stretching exercise. You can choose from any of the stretching
exercises described in Table 3, 4, or 5. Try to pick at least eight exercises and perform them at least 3 days in the
week (ideally every day).
3. Describe your experiences with your stretching exercise program. Be sure to comment on your plans for future
stretching exercise.
Results
Yes No
Did you do eight exercises at least 3 days in the week?
Did you do eight exercises more than 3 days in the week?
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Conclusions and Interpretations
1. Do you feel that you will use stretching exercises as part of your regular lifetime physical activity plan, either now
or in the future? Use several sentences to explain your answer.
Chart 2 Stretching Exercise Log
List the stretching exercises you
actually performed and the days
on which you performed them.
Day 1
Date:
Day 2
Date:
Day 3
Date:
Day 4
Date:
Day 5
Date:
Day 6
Date:
Day 7
Date:
1.
2.
3.
4.
5.
6.
7.
8.
2. Discuss the exercises you feel benefited you and the ones that did not. What exercises would you continue to do
and which ones would you change? Use several sentences to explain your answer.
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Body Mechanics: Posture,
Questionable Exercises, and
Care of the Back and Neck
LEARNING OBJECTIVES
After completing the study of this concept, you will be able to:
▶ Identify and describe the anatomy and function of the spine.
▶ Identify and describe the anatomy and function of core muscles.
▶ Clarify the causes and consequences of back and neck pain.
▶ Describe how to prevent and rehabilitate back and neck problems.
▶ Explain why posture is important to neck and back health and ways to improve
posture.
▶ Explain why good body mechanics is important to neck and back health and ways
to improve body mechanics.
▶ Indicate the exercise guidelines for back health and ways to implement the
guidelines.
▶ Name questionable exercises and safer alternatives.
▶ Determine self-assessments to identify potential back, neck, and posture problems
and risks, and plan a self-monitored personal program that includes exercises for
reducing these problems.
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Physical Activity: Special Considerations ▶ Section IV
225
The health, integrity, and
function of the neck and back are
influenced by modifiable as well as
nonmodifiable factors. Maintaining
a healthy neck and back can be
attained by using good posture, good
body mechanics, and safe exercise
technique.
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226 Section 4 ▶ Physical Activity: Special Considerations
unique structure of the intervertebral discs is critical
in distributing force and absorbing shock. The bony
structure of the spine bears loads and provides protection
to the spinal cord and spinal nerves. Poor posture and poor
body mechanics can damage discs and vertebrae, resulting
in pain and disability.
Anatomy and Function
of the Core Musculature
The core is part of an integrated system that
provides stability to the spine. The core includes mus-
culature of the abdominals, back extensors, lateral trunk
flexors, diaphragm, pelvic floor, and hips. A few of the
more familiar muscles of the core include the lumbar mul-
tifidus, transversus abdominis, and internal oblique. There
is no definitive list of muscles belonging to the core. Some
sources may describe the core in terms of 6 or fewer key
T
he neck and back serve vital roles in supporting the
weight of the head and body, producing movement,
carrying loads, and protecting the spinal cord and nerves.
These roles are facilitated by optimal alignment of the
vertebrae and a balance between muscular strength and
flexibility. Impairment of one or more of these functions
can lead to injuries to the muscles, vertebrae, discs, liga-
ments, or nerves of the spine. Neck and back pain are
common in today’s society, with nearly 80 percent experi-
encing an episode of low back pain sometime in life. Back
pain is second only to headache as a common medical
complaint, and an estimated 30 to 70 percent of Americans
have recurring back problems. The multiple functions of
the spinal column may predispose this area to injuries.
The spine helps to produce an array of movements while
bearing significant loads.
Chronic back and neck pain are associated with many
personal health problems. Some cases of back pain are “idio-
pathic” (no known cause), but some are clearly preventable.
This concept provides information about the interrelated
function of the spine and trunk musculature. Specific infor-
mation about core training, posture, body mechanics, and
safe exercise performance will help you adopt preventive
measures that may reduce your risk for back and neck prob-
lems. As this information is intended to provide a basic foun-
dation of knowledge, persons with neck or back pain should
always seek direction from their own medical provider.
Anatomy and Function
of the Spine
The spinal column is arranged for movement. The
bones that make up the spine are called vertebrae. There
are 33 vertebrae in the spine, and most are separated from
one another by an intervertebral disc (see Figure 1 ). The
vertebrae are divided into three main regions commonly
referred to as cervical (neck), thoracic (upper back), and
lumbar (low back). The fused vertebrae that form the
tailbone are called the sacrum and coccyx. The connec-
tions among the vertebrae of the cervical, thoracic, and
lumbar spine allow the trunk to move in complex ways.
The spine is capable of flexion (forward bending), exten-
sion (backward bending), side bending, and rotation, but
functionally, these movements often occur in combina-
tion. For example, in executing a tennis serve, the spine
both extends and rotates. The spine is at risk for injury
when movements are performed repetitively, performed
beyond a joint’s healthy range of motion, or performed
under conditions of heavy or inefficient lifting.
The spinal column has an important role in bearing
loads and protecting the neck and back from
injury. The widest portion of each vertebra articulates
with the intervertebral disc to form a strong pillar of
support extending from the skull to the pelvis. The
Figure 1 ▶ Curvatures of the spinal column.
Cervical lordotic curve
C7
T1
T
12
L1
S1
L5
Thoracic kyphotic curve
Lumbar lordotic curve
sacrum
coccyx
vertebrae
intervertebral disc
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 2
27
muscle groups, while other sources may include as many
as 20 different muscle groups. Regardless, muscles of the
core all share a common anatomical trait: their location
and attachment to either the spine, pelvis, or rib cage. Col-
lectively, the core musculature form a three-dimensional
cylinder that encompasses the body’s center of gravity.
This three-dimensional cylinder is inclusive of the lumbar
spine, pelvis, and hips (see Figure 2 ).
Core stability refers to the body’s ability to main-
tain the spine in a “neutral” postural zone, one in
which the physiologic load on the spine is mini-
mized. The overall function of the spinal stabilization
system depends on the contribution of three components:
a passive restraint system (ligaments, discs, vertebrae, and
joints), active restraint system (muscle-tendon units), and
neural control system (proprioception and feed-forward
mechanisms of the nervous system). Core muscles
incorporate functions of both the active restraint and
neural control systems to maintain ideal postural align-
ment, thereby minimizing excessive stress and strain to
the spine.
Muscles of the core are commonly classified as
either mobilizers or stabilizers. In general, the mobi-
lizers are those muscles that are more superficial and
contract concentrically to produce trunk movements.
The stabilizers are muscles that are more deeply located
and contract isometrically or eccentrically to stabilize
the trunk during arm and leg movements. The stabilizer
group is further divided into two categories, local and
global. These groups are distinguished by differences in
anatomy and function.
The local core stabilizers provide stiffness and stabil-
ity to the spine. They include muscles that possess a small
cross-sectional area, are deeply located, and may span just
one or two vertebral levels at a time. Functionally, these
muscles provide local spinal support, control motion
between adjacent vertebrae, increase intra-abdominal
pressure, and provide proprioceptive input to the body
to avoid injury. The most notable example of a local core
stabilizer is the lumbar multifidus. Also included in the
group are muscles that indirectly influence the stability of
the spine due to their role in increasing intra-abdominal
pressure and their supportive attachment to the fascia of
the back. These muscles include the transversus abdomi-
nis, internal oblique, diaphragm, and pelvic floor muscles.
The local core muscles are believed to maintain the spine
in “neutral” via isometric co-contractions, thereby mini-
mizing excessive loading of the spine.
Intervertebral Discs Spinal discs; cushions of car-
tilage between the bodies of the vertebrae. Each disc
consists of a fibrous outer ring (annulus fibrosus) and
a pulpy center (nucleus pulposus).
Local Core Stabilizers Deep core muscles that
provide stiffness and stability to the spine.
Figure 2 ▶ Cross section showing layers of core musculature.
External oblique
Rectus
abdominis
Quadratus
lumborum
Erector spinae
MultifidusPsoas major
Lumbar
spine (L3)
Multifidus
Internal oblique
Transversus
abdominis
Transversus
abdominis
Muscles of
pelvic floor
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228 Section 4 ▶ Physical Activity: Special Considerations
The global core stabilizers function to produce trunk
motion as well as trunk stability based on their attach-
ments to the pelvis. These muscles tend to have a larger
cross-sectional area, are more superficially located, often
span multiple vertebral levels, and possess attachments
to the pelvis, rib cage, and/or thoracic spine. Examples
include the rectus abdominis, exter-
nal oblique, quadratus lumborum,
and erector spinae. Also included
are muscles of the hip, which indi-
rectly influence lumbar stability by altering tilt of the
pelvis. Functionally the global core stabilizers generate
movement of the trunk as well as provide stabilization.
Causes and Consequences
of Back and Neck Pain
Most back and neck pain stems from lifestyle
choices or life experiences. The original cause (or
causes) of back and neck pain are typically hard to iden-
tify. Although back and neck problems can result from an
acute injury (e.g., a diving accident or car accident), most
are caused by accumulated stresses over a lifetime. These
factors include the avoidable effects of poor posture and
body mechanics as well as questionable exercises that put
the back at risk. (Exercises to avoid are discussed later in
the concept.) Musculoskeletal injuries and degenerative
changes to the discs, vertebrae, joint surfaces, muscles, or
ligaments can predispose you to back and neck problems.
Depression, cancer, infections, and some visceral dis-
eases (kidney, pelvic organs) can also contribute to back
problems. Although people have some control over these
causes, some back pain stems directly from structural or
functional disorders that a person is born with. Inherited
causes include anomalies of the spine and some forms
of scoliosis .
To reduce risk for back pain, reduce the risk factors
that you have control over. Modifiable risk factors (fac-
tors you can change) include regular heavy labor, use of
vibrational tools, routines of prolonged sitting, smoking,
a hypokinetic lifestyle, coronary artery disease, and obe-
sity. Nonmodifiable risk factors include a family history
of joint disease, age, congenital anomalies, and direct
trauma (e.g., a fall or rough athletic activity when young).
Lab 11A provides a questionnaire for assessing your
potential risk for back and neck pain.
The nervous system and various pain-sensitive
structures contribute to back pain. Back pain can
result from direct or indirect causes. Direct causes are
typically the result of tissue trauma to areas in or around
the spinal column. The most common sources of pain
are ligaments, intervertebral discs, nerve roots, spinal
joints, and muscles. Indirect causes stem from the release
of pain-causing chemicals from injured tissues. These
Health is available to Everyone
for a
Lifetime, and it’s Personal
Is Back Pain in Your Future?
According to the National Institutes of Health, the most
common medical problem in the United States is back
pain, which is very often caused by degeneration of the
disks in the spine. Preventative measures include main-
taining a healthy weight over the lifespan, using proper
lifting techniques, and engaging in regular exercise, par-
ticularly strength training and flexibility exercises.
What steps are you taking today to help prevent back problems
later in life?
ACTIVITY
A CLOSER LOOK
ACTIVITY
Functional Fitness Predicts Injury Risk
Being physically fit provides many health benefits but studies
have typically not shown that fitness can reduce risk of inju-
ries. This is because many injuries often happen dynamically
and acutely. However, several recent studies demonstrate the
utility of a specific screening protocol—the Functional Move-
ment Screen (FMS)—that can diagnose limitations and imbal-
ances that may predispose a person to injury. To address
these problems, functional fitness training tends to rely on
large, multi-planar movements of the limbs that indirectly
target core muscles. The deep core muscles are known to
contract in anticipation of most arm and leg movements. By
contracting prior to arm or leg movement, the deep core mus-
cles act as a brace around the trunk and a solid anchor from
which powerful arm and leg movements can occur. By utilizing
functional fitness training techniques, the core musculature
can be better prepared to handle the forces, postures, and
actions involved in real-life activities and sports.
Do you think you have sufficient functional fitness for your lifestyle?
Why or Why not?
VIDEO 1
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 229
chemicals cause nerves in the area to remain irritated and
sensitive. Processes within the brainstem, spinal cord, and
peripheral nerves can also modulate the sensation of pain,
either increasing or decreasing it. For example, some
back pain can be caused by abnormal feedback loops that
enhance or maintain the perception of pain—even when
the original cause or problem is corrected.
The integrity of the neck and back are jeopardized
by excessive stress and strain. Forces are constantly
at work to bend, twist, shear, compress, or lengthen tis-
sues of the body. Stress on these tissues may eventually
create strain, a change in the tissue’s size or dimension.
Healthy tissues typically return to their normal state once
the force is removed. Injury occurs when excessive stress
and strain prevent the tissue from returning to its normal
state. A number of factors can contribute to stress and
strain on the back.
• Poor posture can cause body segments to experience stress
and strain. When body segments are in poor align-
ment (e.g., slouching or forward head positions), the
muscles in the back and neck must work hard to com-
pensate. This creates excessive stress and strain in the
affected area(s). Over time, tension in these muscles
can lead to myofascial trigger points , causing head-
ache or referred pain in the face, scalp, shoulder, arm,
and chest. The chronic stress from poor alignment can
also lead to other postural deviations and degenerative
changes in the neck.
• Prolonged sitting contributes to back problems. Sitting, by
itself, is not a risk factor for the development of back
pain. However, when prolonged sitting (more than
half the work day) is combined with exposure to vibra-
tion and awkward postures at work, an individual has
four times the risk of developing back pain. Occupa-
tions with the highest risk based on these three factors
include helicopter pilots and truck drivers.
• Bad body mechanics and improper lifting techniques con-
tribute to stress and strain on the spine. The lumbar verte-
brae and the sacrum are most vulnerable to this type of
injury due to the significant weight they support and
the thinner ligamentous support at this level.
• Being overweight or obese increases the risk of back pain.
Those who are obese are on average 20 percent more
likely to have back pain than those of normal weight.
Obesity and overweight status are hard on the body
because they overload the bones, discs, tendons, and
ligaments of the body. Added wear and tear on joint sur-
faces can lead to osteoarthritis. Postural changes accom-
pany weight gain and create additional stress and
strain on joints. For example, a large protruding abdo-
men often causes forward tipping of the pelvis and
excessive arching of the low back that can lead to
back pain.
Some exercises and movements can produce
microtrauma, which can lead to back and neck
pain. Most people are familiar with acute injuries,
such as ankle sprains. These injuries are associated with
immediate onset of pain and swelling. Microtrauma
is a “silent injury”—a subtle form of injury that results
from accumulated damage over time. It can result from
repetitive motion, repeated forceful exertion, long-term
vibration or working with awkward postures. When
microtrauma occurs as the result of activities at work, it is
often referred to by the medical terms Repetitive Stress
Injury (RSI) or Cumulative Trauma Disorder (CTD).
One common example is carpal tunnel syndrome, a
painful irritation of the median nerve at the wrist, often
brought on by repetitive motion of the wrist during long
and extended periods of typing, assembly line tasks, or
construction work.
Microtrauma can also result from the repetitive per-
formance of unsafe exercises or contraindicated move-
ments. For example, regular performance of full deep
knee squats or full neck circles may irritate the joint sur-
faces and eventually cause knee or neck pain. Repeated
overhead lifting with excessive loads can irritate and dam-
age the rotator cuff tendon of the shoulder. The initial
wear and tear of microtrauma is not something typically
noticed. However, over many years, microscopic changes
occur in the joint. Examples include swelling, fibrosis of
the synovial lining, abnormal thickening of the surround-
ing joint capsule, calcifications in the tendons, and thin-
ning and roughening of the cartilage cushioning the joint
surfaces. Because these changes are unseen and often
unfelt, the offending exercise or activity is often viewed
as harmless. However, later in life the effects from the
microtrauma become more apparent, manifesting in ten-
donitis, bursitis, arthritis, or nerve compression. Chances
are, when the injury reaches a painful stage, the cause is
not identified and it gets attributed to aging.
Global Core Stabilizers Superficial core muscles
that produce motion and aid in stabilization.
Scoliosis A curvature of the spine that produces a
sideways curve with some rotation; while typically
mild, this condition can sometimes be painful.
Myofascial Trigger Points Tender spots in the
muscle or muscle fascia that refer pain to a location
distant to the point.
Referred Pain Pain that appears to be located in
one area, though it actually originates in another
area.
Microtrauma Injury so small it is not detected at
the time it occurs.
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230 Section 4 ▶ Physical Activity: Special Considerations
Degenerative disc disease is a common part of
aging and a source of back pain. Many elderly adults
get shorter as they age, often due to degenerative changes
within the vertebral bodies and discs. One notable change
is flattening of the discs as a result of lost water content.
This reduces the space between vertebrae and increases
the compressive forces on the small facet joints and the
large vertebral bodies. This results in a decrease in the
size of the spinal canal, which in turn increases the likeli-
hood of nerve impingement, bone spur development, and
arthritis, all of which can contribute to back pain and dis-
ability (see Figure 4 ).
Injury to the spine negatively affects the function
of the core musculature. One of the more important
core muscles, the lumbar multifidus, is adversely affected
by back pain. Studies demonstrate that with low back
pain, the muscle becomes inhibited (exhibiting decreased
levels of activation and increased fatigability), is subject
to atrophy, and becomes infiltrated with fatty deposits.
In the healthy individual, the multifidus is believed to
be responsible for providing more than two-thirds of
the dynamic rigidity to the lumbar spine and serves an
important role in proprioception and kinesthetic aware-
ness. Research studies have shown specific spinal sta-
bilization exercises to be effective in reversing some of
the adverse changes to the multifidus, including positive
The lumbar intervertebral discs are particularly
susceptible to injury and herniation. The interverte-
bral discs located between the vertebrae of the spine are
composed of a tirelike outer ring (annulus fibrosus) sur-
rounding a gel-like center (nucleus pulposus). The great-
est risk for injury to the discs occurs during excessive
loading and twisting motions of the spine. While most
people think that disc injuries occur from an acute injury,
disc herniation typically reflects a degenerative process
that takes place over time. With repeated microtrauma,
small tears begin to occur in the inner fibers of the annu-
lus. The nucleus begins to move outward ( herniated
disc ), much like toothpaste moving within a squeezed
tube. Disc herniation is termed incomplete or contained as
long as the migrating edge of the nucleus remains within
the fibers of the annulus. As damage continues (often the
result of years of cumulative microtrauma), the annular
fibers may reach a point of rupture at their periphery (see
Figure 3 ). At this point (termed disc extrusion ), the nucleus
pulposus moves into the space around the spinal cord or
nerve root. At this stage, herniation is termed complete or
noncontained.
The risk of disc herniation is greater for younger
adults. Disc herniation is frequently listed as a cause of
back pain, but studies show that only 5 to 10 percent of
persons with herniated discs experience pain. The reason
for this is that pain is often not experienced until com-
plete herniation occurs. Pain is felt as the nuclear mate-
rial begins to press on pain-sensitive structures in its path.
Interestingly, the risk for disc herniation is greatest for
individuals in their 30s and 40s. Risk decreases with age
as the disc degenerates and becomes less soft and pliable.
Figure 4 ▶ Normal disc (a) and degenerated disc with
nerve impingement and arthritic changes (b). Figure 3 ▶ Normal disc (a) and herniated disc (b).
Spinal nerve
Fibrous ring
(a)
(b)
Spinal cord
Nucleus pulposus
Bulging nucleus
presses on
spinal nerve
Nerve root
Spinal cord
Narrowed
space
Nerve root
Arthritis
Spinal cord
Normal disc
(a)
(b)
Bone spur
Degenerated
disc
Body of
vertebra
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 231
gains in cross-sectional area/muscle bulk and improved
neural recruitment. More importantly, participation in a
program of core training exercise has also been shown
to improve pain tolerance and function. Rehabilitation
of the lumbar multifidus appears critical in the recovery
period following back pain.
Medical intervention is sometimes needed for neck
or back pain. Most cases of back pain resolve spontane-
ously, with 70 percent having no symptoms at the end of
3 weeks and 90 percent recovered after 2 months. How-
ever, medical approaches have been shown to speed up
recovery from acute back/neck pain and to improve pain
tolerance and function in chronic cases. Conservative
treatment typically involves the use of anti-inflammatory
medications, muscle relaxants, heat, cryotherapy, trac-
tion, or electrical stimulation. It can also include thera-
peutic exercise, massage, and joint mobilization. When
this treatment is unsuccessful, referral to an alternative
therapy, such as acupuncture, or to a pain clinic for ste-
roidal anti-inflammatory injections may occur. As a last
measure, surgery may be needed for removal of a herni-
ated portion of a disc.
Prevention of and Rehabilitation
from Back and Neck Problems
Exercise is a frequently prescribed treatment for
back or neck pain. Exercise, such as resistance and
aerobic exercises, has been found to be helpful in treating
many types of chronic pain. Exercises that are selected
specifically to help correct pain-related problems are
classified as therapeutic. These exercises are aimed at
correcting the underlying cause of neck or back pain by
strengthening weak muscles, stretching short ones, and
improving circulation to and nourishment of tissues of
the body. Both therapeutic and health-related fitness
exercises may be considered preventive. Done faithfully,
and with the appropriate FIT formula, they improve the
health of the musculoskeletal system, allowing greater
efficiency of function and reduced incidence of injury.
Use of specific core stabilization exercises may
reduce low back pain and functional disability. The
integrity of individual vertebral segments of the spine
is often compromised with injury to the neck or back.
One or more components of the passive restraint system
(ligaments, discs, vertebrae, or joints) may be damaged,
creating a weak link in the stabilization system. In addi-
tion, optimal function of the dynamic and neural con-
trol systems is often adversely affected by injury. This
may make a specific segment of the spine more vulner-
able to delayed healing or further injury. Core training
may enhance stability to the injured area by improving
the function of the dynamic and neural control systems.
Core training programs are also effective in treating low
back pain. Studies have shown significant improvements
in pain level and functional status following a program
of spinal stabilization exercises, but positive results have
also been obtained from more general exercise interven-
tions. Future research may help identify subsets of people
who may benefit from one type of exercise program over
another.
Core stability training and core strengthening
training can promote good back health. As described
in Concept 9, building core strength is important for
overall muscular fitness. However, to reduce the risks for
back and neck problems, you need to train the muscles
involved in core stabilization. There are two main types
of core training programs, and each requires somewhat
different methods.
Core stability training refers to the training of the
deeper (“local”) core musculature. Physiologically, the
local core stabilizers are slow-twitch endurance muscles
that are poorly recruited, demonstrate low force produc-
tion, and often sag/lengthen due to weakness. Training
Herniated Disc The soft nucleus of the spinal disc
that protrudes through a small tear in the surround-
ing tissue; also called prolapse.
Core Strength Strength of muscles that demon-
strate optimal firing patterns and tension-generating
capabilities to create movement of the trunk.
Core Stability Strength of muscles that demon-
strate optimal firing patterns and tension-generating
capabilities to “brace” the trunk in anticipation of,
and during, movement of the head, arms, or legs.
Core stability training can help maintain a healthy back.
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232 Section 4 ▶ Physical Activity: Special Considerations
principles for the local core stabilizers are based on the
respective physiology of the muscles. In general, exercises
should involve slow and controlled movements and be
held for long durations. The focus should be on improv-
ing trunk muscle endurance, since endurance of the trunk
musculature appears to be more important than strength
for reducing the risk of low back pain. Therefore, exer-
cises should emphasize lower resistance and involve
more repetitions. Sets of 8 to 12 repetitions at very light
to moderate intensity are appropriate for improving the
endurance of core stabilizers. Exercises for improving
local core stability are described and illustrated in the
exercise section at the end of the concept.
Core strength training refers to the training of the
more superficial “global” core musculature. Physiologi-
cally, these muscles are fast-twitch in nature, contract
at higher resistance levels, possess greater potential for
force production, work in a noncontinuous fashion, and
are preferentially recruited over the local stabilizers.
They are often in a shortened (tight) position. Based on
the physiologic function of the global core muscles, rec-
ommended training principles include shorter duration
holds, faster speeds of concentric contractions, greater
resistance, and fewer numbers of repetitions. Several sets
of exercise (2 to 4 sets of 8 to 12 repetitions at moder-
ate to hard intensity) are recommended to improve the
core strength of the global core stabilizers. Traditional
abdominal and trunk extensor strengthening exercises are
included in the exercise section at the end of the concept.
Resistance exercise can often correct muscle
imbalance, the underlying cause of many postural
and back problems. If the muscles on one side of a
joint are stronger than the muscles on the opposite side,
the body part is pulled in the direction of the stronger
muscles. Corrective exercises are usually designed to
strengthen the long, weak muscles and to stretch the
short, strong ones in order to have equal pull in both
directions. For example, people with lumbar lordosis may
need to strengthen the abdominals and gluteal muscles
and also stretch the lower back and hip flexor muscles.
Although general resistance training may help improve
the strength and endurance of the back muscles, the
exercises may not be specific enough to target the areas
that contribute to risk for low back pain. Because of this,
increased attention has been given to the development of
back exercise machines that can more effectively rehabili-
tate and/or strengthen back musculature. The machines
help isolate the muscles by restraining or preventing
other muscles from assisting. For example, pelvic muscles
are restrained in a back extension machine to help isolate
the lumbar muscles. This isolation helps strengthen the
lumbar muscles, an important target for reducing risks
for back problems.
Good Posture Is Important
for Neck and Back Health
Good posture has aesthetic benefits. Posture is an
important part of nonverbal communication. The first
impression a person makes is usually a visual one, and T E C H N O L O G Y U P D A T E
New Training Aids for Core Training
Core training is an immensely popular concept across the
fields of sport, fitness, and rehabilitation. The popularity of
core training programs and classes has led to an expand-
ing array of core-training devices and functional fitness
classes. One category of devices includes those that
provide an unstable surface for challenging balance and
stability. Rocker boards, air-filled domes, therapy balls,
foam rollers, and sliding disks are a few examples. Par-
ticipants creatively position themselves on these devices
in various postures—standing, lunging, kneeling, or on
hands and knees. A second category of devices includes
equipment that provides a dynamic challenge to the arms
or legs. Elastic tubing, stretch cords, vibrating wands,
kettle bells, and medicine balls are used to overload the
extremities and elicit a corresponding and supportive con-
traction of the core stabilizers. Creative new devices enter
the fitness market on a monthly basis, giving exercise
participants fresh new ideas for their workout regimen.
ACTIVITY
Movement disciplines like yoga and tai chi can promote body
awareness and contribute to back health.
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 233
good posture can help convey an impression of alertness,
confidence, and attractiveness.
Proper posture allows the body segments to be
balanced. Segments of the human body (i.e., the head,
shoulder girdle, pelvic girdle, rib cage, and spine) are
balanced in a vertical column by muscles and ligaments.
Proper posture helps maintain an even distribution of
force across the body, improve shock absorption, and
minimize the degree of active muscle tension required
to maintain upright posture. When viewed from the side,
three normal curvatures of the spine are present, causing
the vertebral column to appear S-shaped. These curva-
tures are created by the lordotic (inward) curve of the
cervical and lumbar spines and the kyphotic (outward)
curve of the thoracic spine (see Figure 1 ). The curves
help balance forces on the body and minimize muscle
tension. They are also responsible for humans’ unique
ability to walk upright on two legs while maintaining a
forward gaze.
The degree of curvature is influenced by the tilt of
the pelvis. A forward pelvic tilt increases curvature in
the neck and lower back, whereas a backward pelvic tilt
flattens the lower back. The most desirable position is a
neutral spine in which the spine has neither too much
nor too little lordotic curvature. The forces across the
spine are balanced and muscular tension is at a minimum.
Awareness of good standing posture is important
to a healthy spine. In the standing position, the head
should be centered over the trunk with forward gaze,
the shoulders should be down and back but relaxed, with
the chest high and the abdomen flat. The spine should
have gentle curves when viewed from the side but should be
straight when seen from the back. When the pelvis is tilted
properly, the pubis falls directly underneath the lower tip of
the sternum. The knees should be relaxed, with the knee-
caps pointed straight ahead. The feet should point straight
ahead or slightly outward, and the weight should be borne
over the heel, on the outside border of the sole, and across
the ball of the foot and toes (see Figure 5 ).
Awareness of good seated posture is important to
a healthy spine. A large percentage of our days are spent
sitting as we attend class, commute to work, sit at a com-
puter, dine out, or relax in front of the television. Good
seated posture decreases pressure within the discs of the
lower back and reduces fatigue of lower back muscles.
In sitting, the head should be centered over the trunk,
the shoulders down and back. If one is using a computer,
the monitor should be at eye level with the screen 18 to
24 inches from the eyes. The seat of the chair should be
at an angle that allows the knees to be positioned slightly
lower than the hips. The back should firmly rest against
the chair, with support to the lumbar spine. The feet
should be supported on the floor and arms supported on
armrests for ideal unloading of the spine (see Figure 6 ).
Poor posture contributes to a variety of health
problems. When posture deviates from neutral, weight
distribution becomes uneven and tissues are at risk for
injury. Examples of common postural deviations are
described in Table 1 , along with associated health problems.
Two of those highlighted are lumbar lordosis (excessive
Posture The relationship among body parts,
whether standing, lying, sitting, or moving. Good
posture is the relationship among body parts that
allows you to function most effectively, with the least
expenditure of energy and with a minimal amount of
stress and strain on the body.
Lordotic Curve The normal inward curvature of
the cervical and lumbar spine.
Kyphotic Curve The normal outward curvature of
the thoracic spine.
Neutral Spine Proper position of the spine to
maintain a normal lordotic curve. The spine has nei-
ther too much nor too little lordotic curve.
Figure 5 ▶ Comparison of bad and good posture.
Forward
head
Kyphosis and
sunken chest
Lordosis
Abdominal
ptosis
Hyperextended
knees
Flat arches
Bad posture Good posture
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234 Section 4 ▶ Physical Activity: Special Considerations
curvature of the lower back) and flat back (reduced curva-
ture of the lower back).
Lumbar lordosis posture occurs when the pelvis is
tipped forward from a position of neutral tilt. With this
posture, the hip flexor muscles become shortened and
tight, while the abdominal muscles become weak and long
(with a reduced ability to “hold” within inner range). This
muscle imbalance shifts body segment alignment toward a
position of uneven loading, increasing pressure on the facet
joints of the vertebrae. Over time, degenerative changes
may occur, including a narrowing of the openings where
spinal nerves exit, thus increasing risk for pain.
Flat back posture, on the other hand, occurs when the
pelvis is tipped backward from a position of neutral tilt.
With this posture, the lumbar spine is flexed, the lower
back muscles are in a lengthened (weak) position, and the
hamstring muscles are shortened and tight. A reduced
lumbar curvature increases pressure on the interverte-
bral bodies and decreases shock absorption capabilities.
Relative differences in flexibility between tight hamstring
and long trunk muscles may also increase risk for injury.
Laws of physics demonstrate that the body takes the path
of least resistance during a chain of movement (e.g., for-
ward bending), with the most flexible segment (i.e., the
back) providing a greater contribution to the total range
of movement. It follows that regions of greater move-
ment will experience greater tissue strain. In the case of
flat back posture, tight hamstrings may limit the contri-
bution of hip motion during forward bending tasks, thus
predisposing the lower back to become the fulcrum for
movement and the site of injury.
Correcting postural deviations begins with restoring
adequate muscle fitness and muscle length. Most of
us have a natural tendency to sit or stand with poor pos-
ture. For the most part, we can correct our posture with
conscious effort. However, if poor posture is maintained
for very long or very frequent periods of time, the body
loses resiliency. With poor posture, muscles on one side
of a joint or body segment can become shortened or tight
while muscles on the opposite side can become lengthened
and weak. Poor posture can also result following muscle
injury. This may manifest itself in guarded postures or
muscle dysfunction, which eventually leads to muscles on
one side of the joint becoming inflexible due to facilita-
tion and muscles on the opposite side becoming weak
due to inhibition. Postural correction can be achieved by
Posture Problem Definition Health Problem
Forward head The head aligned in front of the center of gravity Headache, dizziness, and pain in the neck, shoulders,
or arms
Kyphosis Excessive curvature (flexion) in the upper back; also
called humpback
Impaired respiration as a result of sunken chest and
pain in the neck, shoulders, and arms
Lumbar lordosis Excessive curvature (hyperextension) in the lower back
(sway back), with a forward pelvic tilt
Back pain and/or injury, protruding abdomen, low
back syndrome, and painful menstruation
Flat back Reduced curvature in the lower back Back pain, increased risk for injury due to reduced
shock absorption
Abdominal ptosis Excessive protrusion of abdomen Back pain and/or injury, lordosis, low back syndrome,
and painful menstruation
Hyperextended knees The knees bent backward excessively Greater risk for knee injury and excessive pelvic tilt
(lordosis)
Pronated feet The longitudinal arch of the foot flattened with
increased pressure on inner aspect of foot
Decreased shock absorption, leading to foot, knee,
and lower back pain
Table 1 ▶ Health Problems Associated with Poor Posture
Figure 6 ▶ Good sitting posture.
Head
centered
over trunk
Shoulders
down and
back
Back
against
chair
Arms
supported
on armrest
Knees
slightly lower
than hips
Feet
on floor
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 235
Good Body Mechanics Is Important
for Neck and Back Health
Proper body mechanics can help prevent back and
neck injury. Biomechanics is a discipline that applies
mechanical laws and principles to study how the body
performs more efficiently and with less energy. Good
body mechanics, as applied to back care, implies main-
taining a neutral spine during activities of daily living.
A neutral spine maintains the normal curvature of the
spine, thus allowing an optimal balance of forces across
the spine, reducing compressive forces, and minimizing
muscle tension. In the following sections, specific recom-
mendations and examples of good body mechanics are
provided for a variety of body positions.
Ergonomics is a discipline that uses biomechanical
principles to develop tools and workplace settings
that put the least amount of strain on the body. Many
employers take an active interest in ergonomic principles,
since repetitive motion injuries and other musculoskeletal
conditions are the leading cause of work-related ill
health. Back pain contributes to reduced job productivity,
with workers losing an average of 4.6 hours per week
of productive time during each episode of back pain. Back
pain has societal costs as well. It is the sixth most costly
medical condition in the United States, burdening the
country with $85.9 billion worth of work expenses each
year related to health care, lost income, and lost work
productivity. One application of ergonomics (also known
as human factors engineering) is the design of effective
workstations for computer users. Properly fitting desks and
chairs and the effective positioning of computer screens
and keyboards can minimize problems such as carpal
tunnel syndrome.
Good lifting technique focuses on using the legs.
Keep in mind that the muscles of the legs are relatively
large and strong, compared with the back muscles. Like-
wise, the hip joint is well designed for motion. It is less
likely to suffer the same amount of wear and tear as the
smaller joints of the spine. When lifting an object from
the floor, straddle the object with a wide stance; squat
down by hinging through the hips and bending the
knees; maintain a slight arch to the lower back by stick-
ing out the buttocks; test the load and get help if it is too
heavy or awkward; rise by tightening the leg muscles,
not the back; keep the load close to the waist; don’t pivot
or twist .
Poor body mechanics can increase risks for back
pain. A common cause of backache is muscle strain, fre-
quently precipitated by poor body mechanics in daily
activities, such as lifting or exercising. If lifting is done
improperly, great pressure is exerted on the lumbar discs,
Long/flexible
hip flexor
muscles
Shortened
abdominal
muscles
Shortened/strong
back muscles
Long/flexible
hamstring
muscles
Figure 7 ▶ Balanced muscle strength and length permit
good postural alignment.
improving body awareness, increasing flexibility of tight
muscles, and improving strength of weak (inhibited) mus-
cles. For example, a slouched posture with rounded and
forward shoulders can be improved by elongating the pec-
toralis (chest) muscles and strengthening muscles of the
upper back. A lumbar lordosis posture can be improved by
stretching the hip flexors and back extensors that keep the
top of the pelvis tipped forward, followed by strengthen-
ing of the abdominal and gluteal muscles that help tip the
pelvis backward (see Figure 7 ).
Hereditary, congenital, and disease conditions,
as well as certain environmental factors, can also
cause poor posture. Some environmental factors that
contribute to poor posture include ill-fitting clothing
and shoes, chronic fatigue, improperly fitting furniture
(including poor chairs, beds, and mattresses), emotional
and personality problems, poor work habits, poor physi-
cal fitness due to inactivity, and lack of knowledge relating
to good posture. Some posture problems, such as scolio-
sis, may be congenital, hereditary, or acquired but can be
improved with exercise, braces, and/or other medical pro-
cedures. Early detection is critical in treating scoliosis.
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236 Section 4 ▶ Physical Activity: Special Considerations
Figure 8 ▶ Characteristics of good body mechanics for different lifestyle tasks.
Lifting Reaching
Carrying
Pushing & Pulling
Elements of
Good Body
Mechanics
Do:
• Keep a slight arch in the lower back,
bend with the knees, straddle and test
the load, keep load close to body, tighten
abdominals, and lift using legs.
• Lower a load using the same principles
in reverse.
Don’t:
• Bend at the waist.
• Twist.
• Lift more than you
can handle.
• Hyperextend the
neck or back.
Do:
• Use a stool or ladder when
working with arms above
head level.
• Keep tools within easy reach.
• Choose tools with extended
handles.
Don’t:
• Keep arms extended out in
front or out to side for long
periods of time without rest.
• Hyperextend your neck.
Do:
• Push or pull heavy
objects.
• Push rather than
pull, if given a
choice.
Do:
• Keep load midline and close to the body.
• Divide the load if possible, carrying half in each
arm/hand.
• Alternate load from one side of the body to the other
when it cannot be divided.
• Carry light-moderate loads in a backpack with straps.
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 2
37
Sit upright with eyes looking straight ahead,
chest lifted, shoulders down and back,
slight arch in lower back, knees slightly
lower than hips, feet supported on a firm
surface.
If you cross your legs, alternate which leg is
crossed on top.
When sitting for longer periods of time, use
chair with armrests, an adequate seat
cushion and lumbar support.
When driving, adjust seat to allow easy
reach of foot pedals with slight knee bend;
recline seat to allow gentle arch in low
back.
Reading material should be elevated or
supported at eye level.
The office desk should be about 29 to 30
inches high for the average man and about
27 to 29 inches high for the average
woman. The computer screen should be
about 20 to 40 inches away from your eyes
with the top of the screen at or slightly
below eye level.
Sitting
Standing
Elements
of Good
Posture
• Use a pillow between the knees when lying on your side and under the knees when lying on the back.
• Choose a pillow that supports the head and neck in neutral alignment.
• Avoid reading in bed.
Lying
•
•
•
•
•
•
• Stand upright with forward gaze,
shoulders down and back, chest
raised, stomach pulled up and in,
slight arch in the lower back, slight
bend in the knees, feet shoulder
width apart, and toes pointing straight
ahead or slightly outward.
• If you stand with weight shifted to
one side, alternate which leg you
lean on.
• If you stand in one place for a
prolonged time, prop one foot on
small step stool.
• Height of work surface should be
about 2 to 4 inches below the waist.
Figure 9 ▶ Characteristics of good posture for sitting, standing, and lying.
and excessive stress and strain are placed on the lumbar
muscles and ligaments (see Figure 8). Many popular exer-
cises involve poor body mechanics and should be viewed
with caution. Poor postures (e.g., sleeping on a soft mattress
or slouching in a chair) can also cause back strain (see
Figure 9). Descriptions and examples
of unsafe exercises and postures are
provided later in the concept. VIDEO 2
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238 Section 4 ▶ Physical Activity: Special Considerations
Exercise Guidelines
for Back Health
Some exercises and movements may put the back
and neck at risk. The human body is designed for motion.
Nevertheless, certain movements can put the joints and mus-
culoskeletal system at risk and should therefore be avoided.
With respect to care of the spine, many contraindicated
movements involve the extremes of hyperflexion and
hyperextension. Hyperflexion causes increased pressure in
the discs, potentially leading to disc herniation. Hyperexten-
sion causes compressive wear and tear on the facet joints that
join vertebral segments (see Figure 10 ). Hyperextension of
the spine also causes narrowing of the intervertebral canal,
potentially causing nerve impingement. Extremes of motion
can be harmful to other joints as well. For example, knee
hyperextension places excessive stress on structures at the
back of the knee, whereas hyperflexion
increases compressive forces under the
kneecap (patello-femoral joint).
Following established exercise guidelines is
important for safe exercise. “Safe” exercises are defined
as those performed with normal body posture, mechanics,
and movement in mind. They don’t compromise the
integrity or stability of one body part to the detriment
of another. “Questionable” exercises, on the other hand,
are exercises that may violate normal body mechanics and
place the joints, ligaments, or muscles at risk for injury.
No harm may occur from doing the exercise once, but
repeated use over time can lead to injury. A number of
commonly used exercises are regarded as poor choices
(contraindicated) for nearly everyone in the general
population due to the reasonable risk for injury over time.
A separate category of questionable exercises are poor
choices for certain segments of the population because of
a specific health issue or known physical problem.
Differentiating exercises as “safe” or “questionable”
can be difficult—even experts in the field have different
opinions on the subject. These views change over time as
new knowledge and research findings reshape our under-
standing of the effect of exercise on the human body.
When considering the merits and risks of different
exercises, it may be necessary to consult an expert.
Professionals such as athletic trainers, biomechanists, phys-
ical educators, physical therapists, and certified strength
and conditioning specialists typically have college degrees
and 4 to 8 years of study in such courses as anatomy,
physiology, kinesiology, preventive and therapeutic exer-
cise, and physiology of exercise. On-the-job training, a
good physique or figure, and good athletic or dancing abil-
ity are not sufficient qualifications for teaching or advising
about exercise. Most fitness centers hire instructors and
personal trainers with appropriate certifications. Unfor-
tunately, certification is not always a requirement. When
searching for advice on training or exercise, inquire about
an individual’s qualifications.
Exercises prescribed for a particular individual
differ from those that are good for everyone (mass
prescription). In a clinical setting, a therapist works
with one patient. A case history is taken and tests made to
determine which muscles are weak or strong, short or long.
Exercises are then prescribed for that person. For example, a
wrestler with a recent history of shoulder dislocation would
probably be prescribed specific shoulder-strengthening
exercises to regain stability in the joint. Common shoulder
stretching exercises would likely be contraindicated for this
individual. In this case, the muscles and joint capsule on the
front of the shoulder are already quite lax to have allowed
dislocation to occur in the first place.
Exercises prescribed or performed as a group cannot
typically take individual needs into account. For exam-
ple, when a physical educator, an aerobics instructor, or
a coach leads a group of people in exercise, there is little
(if any) consideration for individual differences, except for
some allowance made in the number of repetitions or in
the amount of weight or resistance used. Some of the exer-
cises performed in this type of group setting may not be
Figure 10 ▶ Risks of hyperflexion and hyperextension.
Risks of
hyperextension
movements
Risks of
hyperflexion
movements
Wear
and tear
Bulge
VIDEO 3
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 2
39
appropriate for all individuals. Similarly, an exercise that is
appropriate for a certain individual may not be appropriate
for all members of a group. Since it is not always practical
to prescribe individual exercise routines for everyone, it is
often necessary to provide general recommendations that
are appropriate for most individuals. The classification of
exercises in this concept should be viewed in this context.
The risks associated with physical activity can be
reduced by modifying the variables or conditions
under which the activity is performed. While some
exercises are contraindicated, it is almost always possible
to find safer (or modified) alternatives. The variables that
are typically under the direct control of the participant
include exercise frequency (the number of repetitions per-
formed in a given time span), duration (the length of time
activity is sustained), intensity (the amount of resistance),
speed (the velocity of activity, or rate, at which resistance
is applied), and quality (the posture and mechanics of the
body parts involved in the movement). Table 2 highlights
these five activity variables, illustrates how each might be
involved in potential injury, and provides suggestions for
modifying the variable to reduce the risk for injury. In
some cases, changing a single variable may significantly
reduce risk, but in other cases, multiple factors may need
to be changed. In many cases, the best strategy is to look
for a safer exercise. A variety of contraindicated exercises
and safer alternatives are presented in Table 3 (pages
242–248) at the end of the concept.
Risks from exercise can’t be completely avoided. Vari-
ables that are not always under the direct control of the
participant include environmental conditions, such as
temperature, humidity, or exercise surface. Likewise, the
demands of sport and certain occupations may require
individuals to train or work to the maximal limit of these
variables (up to or just short of injury). Circumstances
may not always permit every variable to be modified to
suit an individual. However, making an active effort to
adjust variables that are modifiable will make a difference
in reducing injury risk.
Variables Activity Examples Potential Injury Modifications to Reduce Risk
Frequency • Repeated back hyperextension
in a gymnast
• Repeated wrist movement in
an assembly-line worker
Microtrauma to the joints undergoing
repeated motions
• Maintain a balance of flexibility and
strength in the vulnerable regions of
the body.
• Provide rest/rotate workstations.
• Use ergonomic modifications to the
worksite.
Duration • Sustained position of a deep
squat in a baseball catcher
• Forward head posture of an
office worker
Stress and strain to the muscles and
ligaments used to hold the posture
• Strengthen the muscles of the knees
and maintain leg muscle flexibility in
the catcher.
• Take regular posture breaks in the
office worker and modify computer
station for good seated posture.
Intensity Excessive loads and reaction
forces experienced by a
• Power lifter
• Runner
• Construction worker
Stress and strain to the musculoskeletal
system, especially the weaker portions
of the back and shoulders
• Do a proper warm-up and correct
training progression.
• Wear supportive shoes and clothing.
• Be aware of personal limits, seeking
help or a spot when needed.
Speed High-velocity movement of
• A 50-yd sprinter
• The rapid fingering of a concert
pianist
• Motions applied over a short time under
conditions of high tension predispose
the muscles and tendons to injury.
• With fast-paced motions, precision
is often sacrificed (particularly with
fatigue), possibly leading to faulty
movement patterns.
• Follow activity-specific training proto-
cols to optimize recruitment of appro-
priate muscle fiber types.
• Maintain balance of flexibility and
strength.
• Use deep muscles for stability and
superficial muscles for mobility.
Movement
quality
• Extended range of motion dur-
ing ballistic shoulder stretching
of swimmers
• Poor body mechanics when
shoveling snow
• Movement through extreme ranges or
at the limit of normal motion can lead
to instability or wear/tear of joints.
• Poor balance of forces throughout the
body increases risk for stress and strain.
• Balance flexibility with strength and
respect pain, the body’s signal of injury.
• Use good posture and body mechan-
ics in recreational and lifestyle activi-
ties to balance forces.
Table 2 ▶ Controllable Variables in Reducing Risk for Injury
Contraindicated Not recommended because of
the potential for harm.
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240 Section 4 ▶ Physical Activity: Special Considerations
Strategies for Action
An important step in taking action is
assessing your current status. The
Healthy Back Tests consist of eight pass or fail items that will give
you an idea of the areas in which you might need improvement.
The Healthy Back Tests are described in Lab Resource Materials.
You will take these tests in Lab 11A. Experts have identified behav-
iors associated with potential future back and neck problems.
A questionnaire is also provided for assessing these risk factors.
Adopting and maintaining good posture promotes good
back health. Lab 11B includes a posture test to help you
evaluate your posture. Identify possible postural problems
and take appropriate corrective action to reduce stress and
strain on your back and neck.
Specific exercises are sometimes needed to prevent or help
rehabilitate postural, neck, and back problems. Exercises
included in previous concepts were presented with health-
related fitness in mind. The exercises included in this concept
are not so different. They are either flexibility or strength/muscle
endurance exercises for specific muscle groups; however,
each is selected specifically to help correct a postural problem
or to remove the cause of neck and back pain. To that extent,
these exercises may be classified as therapeutic. The same
exercises may be called preventive because they can be used
to prevent postural or spine problems. People who have back
and neck pain should seek the advice of a physician to make
certain that it is safe for them to perform the exercises.
The exercises in Tables 4 to 10 are not necessarily intended
for all people. Rather, use your results on the Healthy Back
Tests and the posture test to determine the exercises that are
most appropriate for you. Table 3 (pages 242–248) provides
information on “Questionable Exercises and Safe Alternatives.”
To facilitate the use of these exercises for back or postural
problems, the most effective exercises for various maladies
are organized in Tables 4 to 10. Lab 11C is designed to help
you choose specific exercises related to test items in Lab 11A.
Keep records of progress to maintain a back care
program. Lab 11C provides an activity logging sheet for
keeping records of your progress as you regularly perform
exercises to build and maintain good back and neck fitness.
ACTIVITY
Clinical Applications (and Implications) of New Gaming Technology
Gaming technology has spawned a variety of
sport and clinical applications since it creates
an engaging and motivational climate for medical rehabilita-
tion. Many physical therapy clinics now use the Wii to promote
interest and motivation in patients. The games can be set up
to require similar postures and body movements needed for
traditional therapy exercises. Patients may tire of repetitive
exercise but become engrossed in the task of the game and
forget that they are exercising. The potential of the tools for
rehabilitation is clearly a positive application but new stud-
ies report some clinical problems associated with excessive
gaming—prompting some to characterize new conditions of
Wii-itis and Nintendin-itis.
Do you see more advantages or disadvantages associated with the
increased availability of gaming technology in society?
CC
G
s
ACTIVITY
In the News
Some additional general guidelines will help
prevent postural, back, and neck problems. In
addition to the suggestions for improving body mechanics
noted in the previous sections, the following guidelines
should be helpful:
• Do exercises to strengthen abdominal and hip exten-
sors and to stretch the hip flexors and lumbar muscles
if they are tight (see Tables 3 to 10 ).
• Avoid hazardous exercises.
• Do regular physical activity for the entire body, such
as walking, jogging, swimming, and bicycling.
• Choose an appropriate warm-up before strenuous activity.
• Sleep on a moderately firm mattress or place a
3/4-inch-thick plywood board under the mattress.
• Avoid sudden, jerky back movements, especially
twisting.
• Maintain a healthy weight. The smaller the waistline,
the less the strain on the lower back.
• Use appropriate back and seat supports when sitting
for long periods.
• Maintain good posture when carrying heavy loads; do
not lean forward, sideways, or backward.
• Adjust sports equipment to permit good posture; for
example, adjust a bicycle seat and handle bars to per-
mit good body alignment.
• Avoid long periods of sitting at a desk or driving; take
frequent breaks and adjust the car seat and headrest
for maximum support.
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Concept 11 ▶ Body Mechanics: Posture, Questionable Exercises, and Care of the Back and Neck 241
Web Resources
American Physical Therapy Association www.apta.org
American Spine Center www.americanback.com
Back and Body Care www.backandbodycare.com
Back Pain (Medline Plus-NIH) www.nlm.nih.gov/
medlineplus/backpain
.html
Guide to Clinical Preventive Services www
.thecommunityguide.org/about/guide.html
Low Back Pain (American Academy of Orthopaedic
Surgeons) http://orthoinfo.aaos.org/topic
.cfm?topic 5 A00311
Low Back Pain Fact Sheet (NIH) www.ninds.nih.gov/
disorders/backpain/detail_backpain.htm
MedX www.medxonline.com
National Osteoporosis Foundation www.nof.org
National Safety Council www.nsc.org
National Strength and Conditioning Association
www.nsca-cc.org
Suggested Readings
Bird, M., et al. 2011. The long-term benefits of a multi-
component exercise intervention to balance and mobility
in healthy older adults. Archives of Gerontology and Geriatrics
52(2):211–216.
Brumitt, J. 2010. Core Assessment and Training. Champaign,
IL: Human Kinetics.
Chang, Y., et al. 2010. Physical activity and cognition in older
adults: The potential of Tai Chi Chuan. Journal of Aging and
Physical Activity 18:451–47
2.
Ellingson, L. D., L. H. Colbert, and D. B. Cook. 2012.
Physical activity is related to pain sensitivity in healthy
women. Medicine and Science in Sports and Exercise
44(7):1401–1406.
Freburger, J. K., et al. 2009. The rising prevalence of chronic
low back pain. Archives of Internal Medicine 169(3):251–258.
Jahnke, R., et al. 2010. A comprehensive review of health
benefits of Qigong and Tai Chi. American Journal of Health
Promotion 24(6):e1–e25.
Kiesel, K., Plisky, P., and R. Butler. 2011. Functional movement
test scores improve following a standardized off-season
intervention program in professional football players.
Scandinavian Journal of Medicine and Science in Sports
21(2):287–292.
Martin, R. A., et al. 2008. Expenditures and health status
among adults with back and neck problems. Journal of the
American Medical Association 299(6):656–664.
Nelson, A., and J. Kokkonen. 2007. Stretching Anatomy.
Champaign, IL: Human Kinetics.
O’Connor, F. G., et al. 2011. Functional movement screening:
Predicting injuries in officer candidates. Medicine and Science
in Sports and Exerc ise 43(12):2224–2230.
Rahman, S., et al. 2010. The association between obesity and
low back pain: A meta-analysis. American Journal of Epidemi-
ology 171(2):135–154.
Ratliff, J., A. Hilibrand, and A. R. Vaccaro. 2008. Spine-related
expenditures and self-reported health status. Journal of the
American Medical Association 299(22):2627.
Reid, Kieran F., and Roger A. Fielding. 2012. Skeletal muscle
power: A critical determinant of physical functioning in
older adults. Exercise & Sport Sciences 40(1):4–12.
Sanders, M. E. 2009. Off the floor exercises for back health.
ACSM’s Health and Fitness Journal 13(6):33–35.
Sherman, K. J., et al. 2011. A randomized trial comparing yoga,
stretching, and a self-care book for chronic low back pain.
Archives of Internal Medicine 171(22):2019–2026.
Tilbrook, H. E., et al. 2011. Yoga for chronic low
back pain: A randomized trial. Annals of Internal Medicine
155(9):569–578.
Healthy People
ACTIVITY
2020
The objectives listed below are societal goals designed to
help all Americans improve their health between now and the
year 2020. They were selected because they relate to the con-
tent of this concept.
• Attain high-quality, longer lives free of preventable
injury.
• Reduce activity limitations due to chronic back pain.
• Reduce joint pain in adults who have doctor-diagnosed
arthritis.
• Reduce proportion of adults with arthritis limitations.
• Reduce prevalence of osteoporosis and hip fractures.
• Reduce sports and recreation injuries.
• Increase access to employee-based exercise facilities and
programs.
A national goal is to increase the proportion of people who have
activity limitations due to chronic back pain and recreational injuries.
This concept provided information about the effects of questionable
exercises, poor posture, and poor body mechanics on back and neck
problems. It also described how functional fitness and core strength
can help promote better posture and improve functional fitness.
Do you think the overall prevalence of back and neck problems are
caused by a lack of awareness of good posture/body mechanics, poor
fitness, and core strength, or a combination?
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Table 3 Questionable Exercises and Safer Alternatives
1. Questionable Exercise: The Swan
This exercise hyperextends the lower back and
stretches the abdominals. The abdominals are too long
and weak in most people and should not be lengthened
further. Extension can be harmful to the back, potentially
causing nerve impingement and facet joint compression.
Other exercises in which this occurs include: cobras,
backbends, straight-leg lifts, straight-leg sit-ups, prone-
back lifts, donkey kicks, fire hydrants, backward trunk
circling, weight lifting with the back arched, and landing
from a jump with the back arched.
2. Questionable Exercise:
Back-Arching Abdominal Stretch
This exercise can stretch the hip flexors, quadriceps,
and shoulder flexors (such as the pectorals), but it also
stretches the abdominals, which is not desired. Because
of the armpull, it can potentially hyperflex the knee joint
and strain neck musculature.
Safer Alternative Exercise: Back Extension
Lie prone over a roll of blankets or pillows and extend
the back to a neutral or horizontal position.
Safer Alternative Exercise: Wand Exercise
This exercise stretches the front of the shoulders and
chest. Sit with wand grasped at ends. Raise wand over-
head. Be certain that the head does not slide forward.
Keep the chin tucked and neck straight. Bring wand down
behind shoulder blades. Keep spine erect. Hold. Press
forward on the wand simultaneously by pushing with the
hands. Relax; then try to move the hands lower, sliding the
wand down the back. Hold
again. Hands may be
moved closer together
to increase stretch on
chest muscles. If this is an
easy exercise for you, try
straightening the elbows
and bringing the wand to
waist level in back of you.
T
a
b
le
3
Note: All safer alternative exercises should be held 15 to
30 seconds unless otherwise indicated.
Deltoid
Erector
spinae
Gluteus
maximus
Hamstring
Pectoralis
major
Pectoralis
minor
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3. Questionable Exercise: Seated Forward
Arm Circles with Palms Down
This exercise (arms straight out to the sides) may cause
pinching of the rotator cuff and biceps tendons between
the bony structures of the shoulder joint and/or irritate the
bursa in the shoulder. The tendency is to emphasize
the use of the stronger chest muscles (pectorals) to
perform the motion rather than emphasizing the weaker
upper back muscles.
Safer Alternative Exercise: Seated
Backward Arm Circles with Palms Up
Sit, turn palms up, pull in chin, and contract abdominals.
Circle arms backward.
4. Questionable Exercise: Double-Leg Lift
This exercise is usually used with the intent of strength-
ening the abdominals, when in fact it is primarily a hip
flexor (iliopsoas) strengthening exercise. Most people
have overdeveloped the hip flexors and do not
need to further strengthen those muscles
because this may cause forward pelvic
tilt. Even if the abdominals are strong
enough to contract isometrically to
prevent hyperextension of the
lower back, the exercise
produces excess
stress on the
discs.
Safer Alternative Exercise: Reverse Curl
This exercise strengthens the lower abdominals. Lie on
your back on the floor and bring your knees in toward
the chest. Place the arms
at the sides for support.
For movement, pull the
knees toward the head,
raising the hips off the
floor. Do not let knees
go past the shoulders.
Return to starting position
and repeat.
T
a
b
le
3
Questionable Exercises and Safer Alternatives Table 3
Rectus
abdominis
Deltoid
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Table 3 Questionable Exercises and Safer Alternatives
5. Questionable Exercise: The Windmill
This exercise involves simultaneous rotation and flexion
(or extension) of the lower back, which is contraindi-
cated. Because of the orientation of the facet joints in
the lumbar spine, these movements violate normal joint
mechanics, placing tremen-
dous torsional stress on
the joint capsule and
discs.
6. Questionable Exercise: Neck Circling
This exercise and other exercises that require neck
hyperextension (e.g., neck bridging) can pinch arter-
ies and nerves in the neck and at the base of the skull,
cause wear and tear to small joints of the spine, and
produce dizziness or myofascial
trigger points. In people with
degenerated discs, it can
cause dizziness, numb-
ness, or even precipitate
strokes. It also aggra-
vates arthritis and
degenerated discs.
Safer Alternative Exercise:
Back-Saver Toe Touch
Sit on the floor. Extend leg and bend the other knee, plac-
ing the foot flat on the floor. Bend at the hips and reach
forward with both hands. Grasp one foot, ankle, or calf
depending upon the distance
you can reach. Pull forward
with your arms and bend
forward. Slight bend in
the knee is acceptable.
Hold. Repeat with the
opposite leg.
Safer Alternative Exercise: Head Clock
This exercise relaxes the muscle
of the neck. Assume a good
posture (seated with legs
crossed or in a chair), and
imagine that your neck is a
clock face with the chin at
the center. Flex the neck
and point the chin at 6:00,
hold, lift the chin; repeat
pointing chin to 4:00,
to 8:00, to 3:00 and
finally to 9:00. Return
to center position with
chin up after each
movement.
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Erector
spinae
Adductors
Gluteals
3
4
6
8
9
12
Sternocleidomastoid
Splenius
capitis
Semispinalis
capitis
Levator scapulae
Trapezius
Scalenes
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7. Questionable Exercise:
Shoulder Stand Bicycle
This exercise and the yoga positions
called the plough and the plough
shear (not shown) force the neck
and upper back to hyperflex. It has
been estimated that 80 percent of
the population has forward head
and kyphosis (humpback) with
accompanying weak muscles.
This exercise is especially
dangerous for these
people. Neck hyperflex-
ion results in excessive
stretch on the ligaments
and nerves. It can also
aggravate preexisting
arthritic conditions. If the
purpose for these exercises is
to reduce gravitational effects on
the circulatory system or internal organs,
lie on a tilt board with the feet elevated. If the purpose is
to warm up the muscles in the legs, slow jog in place. If
the purpose is to stretch the lower back, try the leg hug
exercise.
Safer Alternative Exercise: Leg Hug
Lie on your back with the knees bent at about
90 degrees. Bring your knees to the chest and wrap the
arms around the back of the thighs. Pull knees to chest
and hold.
8. Questionable Exercise:
Straight-Leg and Bent-Knee Sit-Ups
There are several valid criticisms of the sit-up exercise.
Straight-leg sit-ups can displace the fifth lumbar vertebra,
causing back problems. A bent-knee sit-up creates less
shearing force on the spine, but some recent studies have
shown it produces greater compression on the lumbar
discs than the straight-leg
sit-up. Placing the hands
behind the neck or head
during the sit-up or
during a crunch results
in hyperflexion of the
neck.
Safer Alternative Exercise: Crunch
Lie on your back with the knees bent more than
90 degrees. Curl up until the shoulder blades lift off the floor,
then roll down to starting position and repeat. There are sev-
eral safe arm positions. The easiest is with the arms extended
straight in front of the body. Alternatives are with the arms
crossed over the chest or the palms or fist
held beside
the ears.
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Questionable Exercises and Safer Alternatives Table 3
Erector
spinae
Gluteals
Rectus
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Table 3 Questionable Exercises and Safer Alternatives
9. Questionable Exercise: Standing Toe
Touches or Double-Leg Toe Touches
These exercises—especially when done ballistically—can
produce degenerative changes at the vertebrae of the lower
back. They also stretch the ligaments and joint capsule of
the knee. Bending the back while the legs are straight may
cause back strain, particularly if the movement is done bal-
listically. If performed only on rare occasions as a test, the
chance of injury is less than if incorporated into a regular
exercise program. Safer
stretches of the lower
back include the leg
hug, the single knee-to-
chest, the back-saver
hamstring stretch, and
the back-saver toe
touch.
Safer Alternative Exercise:
Back-Saver Hamstring Stretch
This exercise stretches the hamstring and lower back
muscles. Sit with one leg extended and one knee bent,
foot turned outward and close to the buttocks. Clasp
hands behind back. Bend forward from the hips, keep-
ing the low back as straight as possible. Allow bent knee
to move laterally so trunk can move forward. Stretch and
hold. Repeat with the other leg.
Safer Alternative Exercise:
One-Leg Stretch
This exercise stretches the hamstring muscles. Stand
with one foot on a bench, keeping both legs straight.
Hinge forward from the hips keeping shoulders back and
chest up. Bend forward until a pull is felt on the back
side of the thigh. Hold. Repeat.
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10. Questionable Exercise: Bar Stretch
This type of stretch may be harmful. Some experts have
found that when the extended leg is raised 90 degrees
or more and the trunk is bent over the leg, it may lead to
sciatica and piriformis syndrome,
especially in the per-
son who has lim-
ited flexibility.
Hamstring
Hamstring
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11. Questionable Exercise: Shin
and Quadriceps Stretch
This exercise causes hyperflexion of the knee. When the knee
is hyperflexed more than 120 degrees and/or
rotated outward by an external t orque, the liga-
ments and joint capsule are stretched, and
damage to the cartilage may occur.
Note: one of the quadriceps,
the rectus femoris, is not
stretched if the trunk is
allowed to bend forward
because it crosses the
hip as well as the knee
joint. If the exercise
is used to stretch the
quadriceps, substitute the
hip and thigh stretch. For
most people it is not neces-
sary to stretch the shin muscles,
since they are often elongated
and weak; however, if you need to
stretch the shin muscles to relieve
muscle soreness, try the shin stretch.
Safer Alternative Exercise:
Hip and Thigh Stretch
Kneel so that the front leg is bent at 90 degrees (front
knee directly above the front ankle). The knee of the
back leg should touch the floor well behind the front
foot. Press the pelvis for-
ward and downward. Hold.
Repeat with the opposite
leg forward. Do not bend
the front knee more than
90 degrees.
Safer Alternative Exercise: Shin Stretch
Kneel on your knees, turn to right and
press down on right ankle with right
hand. Hold. Keep hips thrust for-
ward to avoid hyperflexing the
knees. Do not sit on the heels.
Repeat on the left side.
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Questionable Exercises and Safer Alternatives Table 3
Quadriceps
Tibialis
anterior
Extensor
hallucis
longus
Extensor
digitorum
longus
12. Questionable Exercise: The Hero
Like the shin and quadriceps stretch, this exercise
causes hyperflexion of the knee. It also causes torque
on the hyperflexed knee. For these reasons the liga-
ments and joint capsule are stretched and the cartilage
may be damaged. For most people it is not necessary
to stretch the shin muscles since they are often elon-
gated and weak; however, if you need to stretch the shin
muscles, use the shin stretch. If this exercise is used
to stretch the quadriceps, substitute the hip and thigh
stretch.
Sciatica Pain along the sciatic nerve in the buttock
and leg.
Piriformis Syndrome Muscle spasm and nerve
entrapment in the pyriformis muscle of the buttocks
region, causing pain in the buttock and referred pain
down the leg (sciatica).
Torque A twisting or rotating force.
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Table 3 Questionable Exercises and Safer Alternatives
13. Questionable Exercise:
Deep Squatting Exercises
This exercise, with or without weights, places the knee
joint in hyperflexion, tends to “wedge it open,” stretching
the ligaments, irritating the synovial membrane, and pos-
sibly damaging the cartilage. The joint has even greater
stress when the lower leg and foot are not in straight
alignment with the knee. If you are performing squats
to strengthen the knee and hip extensors, try substitut-
ing the alternate leg kneel
or half-squat with
free weight or leg
presses on a
resistance
machine.
14. Questionable Exercise:
Knee Pull-Down
This exercise can result in hyperflexion of the knee. The
arms or hands placed on top of the shin places undue
stress on the knee joint.
Safer Alternative Exercise: Half Squat
This exercise develops the muscles of the thighs and
buttocks. Stand upright with feet shoulder width apart.
Squat slowly by moving hips back-
wards, then bending knees.
Keep shins vertical.
Bend knees 45–90
degrees. Repeat.
Safer Alternative Exercise:
Single Knee-to-Chest
Lie down with both knees bent, draw one knee to the
chest by pulling on the thigh with the hands, then extend
the knee and point the foot toward the
ceiling. Hold. Pull to chest again and
return to starting position. Repeat
with other leg.
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Quadriceps
Gluteus
maximus
Gluteus
maximus
Hamstring
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1. Back-Saver Hamstring Stretch
This exercise stretches the hamstrings and calf muscles.
Sit on the floor with the feet against the wall or an
immovable object. Bend left knee and bring foot close
to buttocks. Clasp hands behind back. Bend forward
from hips, keeping lower back as straight as possible.
Let bent knee
rotate outward
so trunk can
move forward
keeping back
flat. Hold and
repeat on
each leg.
3. Hip and Low Back Stretch
This exercise stretches the hip
flexors of one leg and the gluteals
and lumbar muscles of the oppo-
site leg. Lie on your back. Draw
one knee up to the chest and
pull thigh toward chest
with the hands;
then slowly
return to the
original posi-
tion. Repeat
with other
knee. Do not
grasp knee—
grasp thigh. If
a partner or a
weight stabilizes the extended leg, the
hip flexor muscles on that leg will be
stretched.
2. Single Knee-to-Chest
This exercise stretches the lower back, gluteals, and
hamstring muscles. Lie on your back with knees bent.
Use hands on back of thigh to draw one knee to the
chest. Hold. Then extend the knee and point the foot
toward the ceiling. Hold. Return to the
starting posi-
tion without
arching
your back.
Repeat
with other
leg.
4. Hip and Thigh Stretch
This exercise stretches the hip flexor muscles and helps
prevent or correct forward pelvic tilt, lumbar lordosis,
and backache. Place right
knee directly above right
ankle and stretch left
leg backward so knee
touches floor. If neces-
sary, place hands on floor
for balance. Press pelvis
forward and downward.
Hold. Repeat on
opposite
side. Cau-
tion: Do not
bend front
knee more
than 90
degrees.
Hamstrings
Gastrocnemius Gluteus
maximus
Gluteus
maximus
Lower back
Hamstrings
Iliopsoas
Rectus
femoris
Stretching Exercises for the Hip Flexors and Hamstrings Table 4
When performed on a regular basis, these exercises will help maintain neutral spine posture and
improve the flexibility of the hip flexor and hip extensor musculature. (Tightness of these muscles
can, respectively, contribute to a forward or backward pelvic tilt due to their attachments to the
pelvis.) Hold stretches for 15 to 30 seconds.
VIDEO 4
Iliopsoas
Rectus
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Table 5 Core Stabilization Exercises
These exercises help train the abdominal and buttock muscles to provide postural stability by maintaining the pelvis
in a neutral position during activity. They help prevent or correct lumbar lordosis, abdominal ptosis (see Table 1), and
backache. Hold exercises for 15 to 30 seconds.
1. Abdominal Hollowing on Hands
and Knees
Begin on hands and
knees with lower back
in a neutral
position,
stomach
muscles
relaxed
and sag-
ging and eyes looking at the
floor. Hands should be aligned
directly below shoulders and
knees directly below hips. The
action is to pull the belly button
“in and up,” drawing it toward
the spine. If performed correctly,
the muscles below the umbilicus will flatten, rather than
bulge. Recruitment of the transverse abdominus may be
facilitated by coughing and then holding the muscle con-
traction. The exercise is held for 10–30 seconds. Breathe
normally throughout the contraction. Repeat 10 times.
3. Horizontal Side Support
Begin in side lying position with the body resting on
the forearm. Slowly lift the pelvis until the body forms a
straight line from foot to shoulder. Hold 10–30 seconds.
Repeat 8–12 times.
4. Head Nod
Lie flat on the back without a pillow. Gently nod the head
in a “yes” motion. Motion should result in the tightening
of muscles deep in the front of the neck. Place two fin-
gers over the sides of the neck to monitor for the unde-
sirable substitution of stronger muscles in this region.
Hold 10–30 seconds
(or as long as can be
maintained without
substitution). Repeat
10 times. Progress this
exercise by first nod-
ding “yes” and then lift-
ing the head ¼ inch to
½ inch off the surface.
2. Abdominal Hollowing in Wall Support
Begin standing with feet 6 inches from the wall and back
gently resting against the surface. Maintain a
neutral spine. Contract the muscles below
the belly button by pulling the abdominal
wall “in and up.” The pelvic floor may
be contracted at the same time by pull-
ing it “up and in” in a gripping motion.
Breathe throughout the contraction.
Hold 10–30 seconds. Repeat
10 times.
Internal
abdominal
oblique
(cut)
Transverse
abdominal
(cut)
Multifidus
Quadratus
lumborum
Deep
neck
flexors
Internal
abdominal
oblique (cut)
Transverse
abdominal
(cut)
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Exercises for Muscle Fitness of the Abdominals Table 6
These exercises are designed to increase the strength of the abdominal muscles. Strong
abdominal muscles are important for maintaining a neutral pelvis, maintaining good posture, and
preventing backache associated with lordosis.
1. Reverse Curl
Lie on your back. Bend the
knees and bring knees in
toward the chest. Place arms
at sides for balance and sup-
port. Pull the knees toward
the chest, raising the hips off
the floor. Do not let the
knees go past
the shoulders.
Return to the
starting position.
Repeat.
2. Crunch (Curl-Up)
Lie on your back with your knees bent and palms on
ears. If desired, legs may rest on bench to increase dif-
ficulty. For less resistance, place hands at side of body.
For more resistance, move hands higher. Curl up until
shoulder blades leave floor, then roll down to the start-
ing position. Repeat. Variation:
extend the arms or cross
the arms over your
chest.
3. Crunch with Twist (on Bench)
Lie on your back with your feet on a bench, knees bent
at 90 degrees. Arms may be extended or on shoulders or
hands on ears (the most difficult). Same as crunch except
twist the upper trunk so the right shoulder is higher than
the left.
Reach
toward
the left
knee with
the right
elbow.
Hold.
Return
and repeat
to the
opposite side. (This exer-
cise is not recommended
for people with lower back
pain due to the combined
motions of flexion and
rotation.)
4. Sitting Tucks
Sit on floor with feet raised, arms extended for balance.
Alternately bend and extend legs without letting your
back or feet
touch floor.
(This is an
advanced
exercise and
is not recom-
mended for
people who
have back
pain.)
Rectus
abdominis
External
obliques
Rectus
abdominis
External
obliques
External
abdominal
oblique
(cut)
Internal abdominal oblique
Rectus
abdominis
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Table 7 Stretching and Strengthening Exercises
for the Muscles of the Neck
These exercises are designed to increase strength in the neck muscles and to improve neck
range of motion. They are helpful in preventing and resolving symptoms of neck pain and for
relieving trigger points. Hold stretches for 15–30 seconds.
1. Neck Rotation Exercise
This PNF exercise strengthens and stretches the neck
rotators. It should always be done with the head and
neck in axial extension (good alignment). It is particularly
useful for relieving trigger point pain and stiffness. Place
palm of left hand against
left cheek. Point fingers
toward ear and point
elbow forward. Turn
head and neck to
the left; contract
while gently resist-
ing with left hand.
Contract neck mus-
cle for 6 seconds.
Relax and turn head to
right as far as possible;
hold stretch. Repeat four
times; repeat on opposite
side.
2. Isometric Neck Exercises
This exercise strengthens the neck
muscles. Sit and place one or
both hands on the head
as shown. Assume good
head and neck posture
by tucking the chin, flat-
tening the neck, and
pushing the crown of the
head up (axial extension).
Apply resistance (a) side-
ward, (b) backward, and (c)
forward. Contract the neck muscles
to prevent the head and neck from
moving. Hold contraction for 6 sec-
onds. Repeat each exercise up to
six times. Note: for neck muscles,
it is probably best to use a little less
than a maximal contraction, espe-
cially in the presence of arthritis,
degen-
erated
discs, or
injury.
3. Chin Tuck
This exercise stretches the mus-
cles at the base of the skull and
reduces headache symptoms.
Place hands together at the base
of the head. Tuck in the chin and
gently press head backward into
your hands, while looking straight
ahead. Hold.
4. Upper Trapezius Stretch
This exercise stretches the upper trapezius muscle and
relieves neck pain and headache. To stretch the right
upper trapezius, place left hand on top of head, right
hand behind back. Gently turn head toward left under-
arm and tilt chin toward chest.
Increase stretch by gently
drawing head forward
with left hand. Hold.
Repeat to opposite side.
Trapezius
Sternocleidomastoid
Neck
rotator
and
extensors
Neck
flexors
Trapezius
Deep
extensors
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Exercises for Trunk Mobility Table 8
These exercises are designed to increase the strength and mobility of the muscles that move the trunk. They are espe-
cially helpful for people with chronic back pain. Hold stretches for 15 to 30 seconds.
1. Upper Trunk Lift
Lie on a table, bench, or
special-purpose bench
designed for
trunk lifts
with the
upper half
of the body
hanging
over the
edge. Have
a partner sta-
bilize the feet and legs
while the trunk is raised par-
allel to the floor; then lower
the trunk to the starting posi-
tion. Lift smoothly, one seg-
ment of the back at a time.
Place hands behind neck or
on ears. Do not raise past the
horizontal or arch the back or
neck.
2. Trunk Lift
This exercise develops the muscles of the upper back
and corrects round shoulders. Lie face down with hands
clasped behind the neck. Pull the shoulder blades
together, raising the elbows off the floor. Slowly raise the
head and chest off the floor by arching the upper back.
Return to the starting position. Repeat. For less resis-
tance, hands may be placed under thighs. Caution: Do
not arch the lower back or neck. Lift only until the ster-
num (breastbone) clears the floor. Varia-
tions: arms down at sides (easiest), hands
by head, hands extended (hardest).
3. Side Bend
This exercise
stretches the trunk
lateral flexors. Stand
with feet shoulder-
width apart. Stretch
left arm overhead to right.
Bend to right at waist, reach-
ing as far to right as possible
with left arm; reach as far
as possible to the left with
right arm. Hold. Do not let
trunk rotate or lower back
arch. Repeat on opposite
side. Note: this exercise is
more effective if a weight
is held down at the side in the
hand opposite the side being
stretched. More stretch will occur
if the hip on the stretched side is
dropped and most of the weight
is borne by the opposite foot.
4. Supine Trunk Twist
This exercise
increases the
flexibility of
the spine and
stretches the
rotator muscles.
Lie on your back
with your arms
extended at
shoulder level.
Place left foot on
right knee cap.
Twist the lower
body by lowering left knee to
touch floor on right. Turn head to
left. Keep shoulders and arms on
floor. Hold.
Back
extensors
Trunk
Lateral
Flexors
Trunk
rotators
Trunk
extensors
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6. Press-Up (McKenzie Extension
Exercise)
This exercise increases flexibility of the lumbar spine
and restores normal lordotic curve, especially for people
with a flat lumbar spine. Lie on your stomach with hands
under the face. Slowly press up to a rest position on
forearms. Keep pelvis on floor. Relax and hold 10 sec-
onds. Perform 5–10 repetitions. Do several times a day.
Progress to gradually straightening the elbows while
keeping the pubic bone on the floor. Caution: do not
perform if you have lordosis or if you feel any pain or
discomfort in the back or legs. Note: a prone press-up
will feel good as a stretch after doing abdominal strength
or endurance exercises. This relaxed lordotic position
can be performed while standing. Place the hands in the
small of the back and gently arch the back and
hold. This should feel good after sitting for
a long period with the back flat.
5. Lower Trunk Lift
This exercise devel-
ops low back and
hip strength. Lie on
your stomach on a
bench or table with
legs hang-
ing over the
edge. Have
a partner
stabilize the
upper back
or grasp the
edges of the table
with hands. Raise the
legs parallel to the floor
and lower them. Do not
raise past the horizontal or arch
the back. Suggested progres-
sion: (1) Begin by alternating legs;
(2) when you can do 25 reps, add
ankle weights; (3) when you can
do 25 reps, lift both legs simulta-
neously (no weights).
Table 8 Exercises for Trunk Mobility
Gluteus
maximus
Erector
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Stretching and Strengthening Exercises
for Round Shoulders
Table 9
These exercises are designed to stretch the muscles of the chest and strengthen the muscles
that keep the shoulders pulled back in good alignment (scapular adduction).
1. Arm Lift
This exercise strengthens the scapular adductors. Lie on
stomach with arms in reverse-T. Rest forehead on floor.
Maintain the arm position and
contract the muscles between
the shoulder blades, lifting
the arms as high as possible
without raising head and
trunk. Hold. Relax and
repeat. Note: if the arms
are first pressed against
the floor before lift-
ing, this becomes
a PNF exercise and
range of motion may
be greater. Variation: this
more advanced exercise
is performed in the same
way except the arms are
extended overhead.
2. Seated Rowing
This exercise strengthens the scapular adductors (rhom-
boid and trapezius). Sit facing pulley, feet braced and
knees slightly bent. Grasp bar, palms down with hands
shoulder-width apart. Pull bar to chest, keeping elbows
high, and return.
3. Wand Exercise
This exercise stretches the muscles on the front of the
shoulder joint. Sit with wand grasped at ends. Raise
wand overhead. Be certain that the head does not slide
forward into a “poke neck” position. Keep the chin tucked
and neck straight. Bring wand
down behind shoulder
blades. Keep spine
erect; hold.
Hands may
be moved
closer
together to
increase
stretch
on chest
muscles.
4. Pectoral Stretch
This exercise stretches the
chest muscle (pectorals).
1. Stand erect in doorway with
arms raised 45 degrees,
elbows bent, and hands
grasping door jambs, feet in
front stride position. Press
out on door frame, contract-
ing the arms maximally for
3 seconds. Relax and shift
weight forward on legs. Lean
into doorway, so muscles on
front of shoulder joint and
chest are stretched. Hold.
2. Repeat with arms raised
90 degrees.
3. Repeat with arms raised
135 degrees.
(This exercise is not recom-
mended for people with shoul-
der instability. Discontinue if it
causes numbness in the arms or hands.)
Trapezius
Rhomboids
Trapezius
Rhomboids
Pectoralis
major
Pectoralis
minor
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Table 10 Lumbar Stabilization Exercises with Stability Balls
These exercises are designed to help improve the ability of the back to stabilize and support the trunk. The physioballs
provide a useful way to learn to balance the body in these positions.
1. Balancing
Contract abdominal muscles. Straighten one knee
and raise opposite arm over head. Alternate sides.
To increase difficulty, position ball farther
from your body. Variation: slowly walk ball
forward or backward with legs. Be careful
not to arch back.
2. Marching
Sit up straight with hips and
knees bent 90 degrees. Con-
tract abdominal muscles.
Slowly raise one heel off the
ground and opposite arm
over head. Alternate sides.
To increase difficulty, slowly
raise one foot 2 inches from
floor, alternating sides.
3. Wall Support
Stand against a wall with ball
supporting low back. Contract
abdominal muscles. Slowly
bend knees 45 to 90 degrees
and hold 5 seconds. Straighten
knees and repeat. Raise both
arms over head to increase
difficulty.
4. Stomach Roll
Lie prone over ball with abdominal region supported.
Lower back and neck should be in neutral position with
hands supported on floor directly under shoulders. Raise
one leg off the floor while maintaining balance and a
neutral spine. Alternate sides. To increase difficulty, raise
one leg and opposite arm.
90º
90º
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Lab Resource Materials: Healthy
Back Tests
Chart 1 Healthy Back Tests
Physicians and therapists use these tests, among others, to make differential diagnoses of back problems. You and your partner
can use them to determine if you have muscle tightness that may put you at risk for back problems. Discontinue any of these
tests if they produce pain, numbness, or tingling sensations in the back, hips, or legs. Experiencing any of these sensations may
be an indication that you have a low back problem that requires diagnosis by your physician. Partners should use great caution
in applying force. Be gentle and listen to your partner’s feedback.
FLEXIBILITY
Test 1—Straight-Leg Lift
Lie on your back with hands behind your neck. The partner on your left should
stabilize your right leg by placing his or her right hand on your knee. With the
left hand, your partner should grasp your left ankle and raise your left leg as
near to a right angle as possible. In this position (as shown in the diagram),
your lower back should be in contact with the floor. Your right leg should
remain straight and on the floor throughout the test.
If your left leg bends at the knee, this indicates short hamstring muscles. If
your back arches and/or your right leg does not remain flat on the floor this
indicates short lumbar muscles or hip flexor muscles. To pass the test, each
leg should be able to reach approximately 90 degress without the knee or back
bending. (Both sides must pass in order to pass the test.)
Test 2—Thomas Test
Lie on your back on a table or bench with your right leg extended beyond the
edge of the table (approximately one-third of your thigh off the table). Bring
your left knee to your chest and pull your thigh down tightly with your hands.
Lower your right leg. Your lower back should remain flat against the table, as
shown in the diagram. To pass the test, your right thigh should be at table level
or lower.
Test 3—Ober Test
Lie on your left side with your left leg flexed 90 degrees at the hip and
90 degrees at the knee. A partner should place your right hip in slight
extension and right knee with just a slight bend (~20 degrees flexion). Your
partner stabilizes your pelvis with the left hand to prevent movement. Your
partner then allows the weight of the top leg to lower the leg to the floor. To
pass the test your knee or upper leg should be able to touch the table.
CORE TRUNK ENDURANCE TESTS
Test 4—Leg Drop Test*
Lie on your back on a table or on the floor with both legs extended overhead. Flatten
your low back against the table or floor by tightening your abdominals. Slowly lower
your legs while keeping your back flat.
If your back arches before you reach a 45-degree angle, your abdominal muscles
are too weak and you fail the test. A partner should be ready to support your legs if
needed to prevent your lower back from arching or strain to the back muscles.
*The Leg Drop Test is suitable as a diagnostic test when performed one time. It is not a good exercise to be performed regularly by most people. If it
causes pain, stop the test.
45˚
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ls Test 5—Isometric Abdominal Test. Lie supine with hips bent
45 degrees, feet flat on the floor and arms by the side. Draw a line
4 1/2 inches beyond fingertips. Tuck chin and curl trunk forward,
touching line with fingers. To pass, hold for 30 seconds.
Test 6—Isometric Extensor Test. Lie on a table with upper half
of the body hanging over the edge and arms crossed in front of
chest. Have a partner stabilize your feet and legs. Raise your trunk
smoothly until your back is in a horizontal position parallel to the
floor. Do not arch the back. To pass the test hold this position for
30 seconds.
Test 7—Prone Bridge. Support yourself on the floor by resting
on forearms and balls of feet, body extended and back straight.
Elbows are placed directly underneath shoulders. Look straight
down toward hands. Do not arch the back. To pass the test hold
this position for 30 seconds.
Test 8—Quadruped Stabilization. Begin on hands and
knees. Place hands directly below shoulders and knees
directly below hips. Draw abdominals in. Extend one arm and
opposite leg to a horizontal position. Do not allow back to
arch or body to sway. To pass, hold position for 30 seconds.
Test 9—Right Lateral Bridge. Lie on your right side with legs
extended. Raise pelvis off the floor until trunk is straight and
body weight is supported on arm and feet. Do not roll forward
or backward. Do not arch back. Hold this position
for 30 seconds.
Test 10—Left Lateral Bridge. Lie on your left side with legs
extended. Raise pelvis off the floor until trunk is straight
and body weight is supported on arm and feet. Do not roll
forward or backward or arch back. To pass the test, hold this
position for 30 seconds.
Chart 1 Healthy Back Tests (Continued)
Classification Number of Tests Passed
Excellent 8–10
Very good 7
Good 6
Fair 5
Poor 1–4
Chart 2 Healthy Back Test Ratings
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Lab 11A The Healthy Back Tests and
Back/Neck Questionnaire
Name Section Date
Purpose: To self-assess your potential for back problems using the Healthy Back Tests and the back/neck
questionnaire
Procedures
1. Answer the questions in the following back/neck questionnaire. Count your points for nonmodifiable factors, modi-
fiable factors, and total score, and record these scores in the Results section. Use Chart 1 to determine your rating
for all three scores and record them in the Results section.
2. With a partner, administer the Healthy Back Tests to each other (see Lab Resource Materials). Determine your rat-
ing using Chart 2. Record your score and rating in the Results section. If you did not pass a test, list the muscles
you should develop to improve on that test.
3. Complete the Conclusions and Implications section.
Risk-Factor Questionnaire for Back and Neck Problems
Directions: Place an X in the appropriate circle after each question. Add the scores for each of the circles you
checked to determine your modifi able risk, nonmodifi able risk, and total risk scores.
Nonmodifi able
1. Do you have a family history of osteoporosis, arthritis, 0 No 1 Yes
rheumatism, or other joint disease?
2. What is your age? 0 <40 1 40–50 2 51–60 3 61+
3. Did you participate extensively in these sports when you
were young: gymnastics, football, weight lifting, skiing, 0 No 1 Some 3 Extensive
ballet, javelin, or shot put?
4. How many previous back or neck problems have you had? 0 None 1 1 2 2 5 3+
Modifi able
5. Does your daily routine involve heavy lifting? 0 No 1 Some 3 A lot
6. Does your daily routine require you to stand for long periods? 0 No 1 Some 3 A lot
7. Do you have a high level of job-related stress? 0 No 1 Some 3 A lot
8. Do you sit for long periods of time (computer operator, typist, 0 No 1 Some 3 A lot
or similar job)?
9. Does your daily routine require doing repetitive movements
or holding objects (e.g., baby, briefcase, sales suitcase) 0 No 1 Some 3 A lot
for long periods of time?
10. Does your daily routine require you to stand or sit with
poor posture (e.g., sitting in a low car seat, reaching 0 No 1 Some 3 A lot
overhead with head tilted back)?
11. What is your score on the Healthy Back Tests? 0 6–7 1 5 3 4 5 0–3
12. What is your score on the posture test in Lab 11B? 0 0–2 1 3–4 3 5–7 5 8+
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Results
Tests Pass Fail If you failed, what exercise should you do?
1. Straight-leg lift
2. Thomas test
3. Ober test
4. Leg drop test
5. Isometric abdominal test
6. Isometric extensor test
7. Prone bridge
8. Quadruped stabilization
9. Right lateral bridge
10. Left lateral bridge
Total
Back/Neck Questionnaire
Score Rating
Back Tests
Score Rating
Conclusions and Implications: In several sentences, discuss your need to do exercises for care of the back and neck.
Include in your discussion whether you think your muscles are fi t enough to prevent problems, the areas in which you are
most likely to experience problems, and steps you might take to prevent future problems. Use your test results to answer.
Rating Modifiable Score Nonmodifiable Score Total Score
Very high risk 7+ 12+ 19+
High risk 5–6 8–11 13–17
Average risk 3–4 4–7 7–11
Low risk 0–2 0–3 0–5
Chart 1 Back/Neck Questionnaire Ratings
Classification Number of Tests Passed
Excellent 8–10
Very good 7
Good 6
Fair 5
Poor 1–4
Chart 2 Healthy Back Tests Ratings
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Lab 11B Evaluating Posture
Name Section Date
Purpose: To learn to recognize postural deviations and thus become more posture conscious and to determine your
postural limitations in order to institute a preventive or corrective program
Procedures
1. Wear as little clothing as possible (bathing suits are recommended) and remove shoes and socks.
2. Work in groups of two or three, with one person acting as the subject while partners serve as examiners; then
alternate roles.
a. Stand by a vertical plumb line.
b. Using Chart 1 and Figure 1, check any deviations and indicate their severity using the following point scale
(0 = none, 1 = slight, 2 = moderate, and 3 = severe).
c. Total the score and determine your posture rating from the Posture Rating Scale (Chart 2).
3. If time permits, perform back and posture exercises (see Lab 11C).
4. Complete the Conclusions and Implications section.
Results
Record your posture score:
Record your posture rating from the Posture Rating Scale in Chart 2:
Side View Points
Forward head
Rounded shoulders
Excessive lordosis (lumbar)
Abdominal ptosis
Hyperextended knees
Total scores
Classification Total Score
Excellent 0–3
Very good 4–6
Good 7–9
Fair 10–12
Poor 12 or more
Chart 2 Posture Rating Scale
Chart 1 Posture Evaluation
Figure 1 ▶ Comparison of bad and good posture.
Forward
head
Kyphosis and
sunken chest
Lordosis
Abdominal
ptosis
Hyperextended
knees
Bad Posture Good Posture
Flat arches
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Conclusions and Implications
Were you aware of the deviations that were found? Yes No
1. List the deviations that were moderate or severe (use several complete sentences).
2. In several sentences, describe your current posture status. Include in this discussion your overall assessment of
your current posture, whether you think you will need special exercises in the future, and the reasons your posture
rating is good or not so good.
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Lab 11C Planning and Logging Exercises:
Care of the Back and Neck
Name Section Date
Purpose: To select several exercises for the back and neck that meet your personal needs and to self-monitor prog-
ress for one of these
Procedures
1. On Chart 1, check the tests from the Healthy Back Tests that you did not pass. Select at least one exercise from
the group associated with those items. In addition, select several more exercises (a total of 8 to 10) that you think
will best meet your personal needs. If you passed all of the items, select 8 to 10 exercises that you think will best
prevent future back and neck problems. Check the exercises you plan to perform in Chart 1.
2. Perform each of the exercises you select 3 days in 1 week.
3. Keep a 1-week log of your actual participation using the last three columns in Chart 1. If possible, keep the log
with you during the day. Place a check by each of the exercises you perform for each day, including ones that you
didn’t originally plan. If you cannot keep the log with you, fill in the log at the end of the day. If you choose to keep
a log for more than 1 week, make extra copies of the log before you begin.
4. Answer the question in the Results section.
Check the tests you failed. ✓ Write in a selected exercise for each test
that you can plan to perform this week.
[The core tests (5–10) may be used as
strengthening exercises]. Check the dates
you performed the exercises.
Day 1
Date:
Day 2
Date:
Day 3
Date:
1. Straight-leg lift
2. Thomas test
3. Ober test
4. Leg drop test
5. Isometric abdominal test
6. Isometric extensor test
7. Prone bridge
8. Quadruped stabilization
9. Right lateral bridge
10. Left lateral bridge
Chart 1 Back and Neck Exercise Plan
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Results
Did you do 8 to 10 exercises at least 3 days in the week? Yes No
Conclusions and Interpretations
1. Do you feel that you will use back and neck exercises as part of your regular lifetime physical activity plan, either
now or in the future? Use several sentences to explain your answer.
2. Discuss the exercises you did. What exercises would you continue to do, and which ones would you change?
Use several sentences to explain your answer.
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289
Body Composition
LEARNING OBJECTIVES
After completing the study of this concept, you will be able to:
▶ Understand and interpret body composition measures.
▶ Describe common methods of assessing body composition.
▶ List health risks associated with overfatness.
▶ List health risks associated with excessively low body fatness.
▶ Identify and describe the origins of body fatness.
▶ Explain the relationship between physical activity and body composition and apply
the FIT formula for achieving and maintaining a healthy body composition.
▶ Evaluate your body composition using several self-assessments and identify
personal needs, set goals, and create a plan for achieving and maintaining a healthy
body composition.
▶ Self-assess your daily
energy expenditure.
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Nutrition and Body Composition ▶ Section V
Possessing an optimal amount
of body fat contributes to health
and wellness.
289
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290 Section 5 ▶ Nutrition and Body Composition
Understanding and Interpreting
Body Composition Measures
Body composition is considered a component of
health-related fitness but can also be considered
a component of metabolic fitness. Body composi-
tion is generally considered to be a health-related com-
ponent of physical fitness. However, body composition is
unlike the other parts of health-related physical fitness
in that it is not a performance measure. Cardiovascular
fitness, strength, muscular endurance, and flexibility can
be assessed using movement or performance, such as run-
ning, lifting, or stretching. Body composition requires
no movement or performance. This is one reason some
experts prefer to consider body composition as a com-
ponent of metabolic fitness. Whether you consider body
composition to be a part of health-
related or metabolic fitness, it is an
important health-related factor.
Standards have been established for healthy
levels of body fatness. Fat has important functions in
the body, and it is distributed naturally into different tis-
sues and storage depots. The indicator of percent body
fat is typically used to reflect the overall fat content of
the body. This indicator takes into account differences in
body size and allows recommendations to be made for
healthy levels of body fatness.
A certain minimal amount of fat is needed to allow
the body to function. This level of essential fat is nec-
essary for temperature regulation, shock absorption, and
the regulation of essential body nutrients, including vita-
mins A, D, E, and K. The exact amount of fat considered
essential to normal body functioning has been debated,
but most experts agree that males should possess no
less than 5 percent and females no less than 10 percent.
For females, an exceptionally low body fat percentage
( underfat ) is of special concern, particularly when asso-
ciated with overtraining, low calorie intake, competitive
VIDEO 1
T
he topic of overweight and obesity is in the news
almost on a daily basis. Reports describe the health
effects of obesity, the social and environmental factors
that contribute to obesity, and the overall impact that
it has on society. Ironically, in a society in which being
thin or lean is almost obsessively valued, the incidence
of overweight and obesity continues to increase. The
most recent statistics indicate that approximately 17 per-
cent of youth and 66 percent of adults are overweight or
obese in the United States. Surveys indicate that only
52 percent believe they are overweight. About one-
third of American adults are classified as obese, but only
12 percent classify themselves in this category. A decade
ago, no state had an obesity rate higher than 25 percent.
Recent statistics indicate that no state has a rate lower
than 20 percent, and 36 have obesity rates higher than
25 percent, with Mississippi having the highest rate
(34 percent) and Colorado the lowest (21 percent).
The health implications of this obesity epidemic
are hard to quantify and predict, but it is clear that
obesity has become one of our greatest public health
challenges. Health-care dollars spent annually on medi-
cal conditions associated with obesity have been esti-
mated at over $147 billion. It is estimated that by the
year 2018 the cost will be $334 billion, accounting for
21 percent of health-care spending. Currently the yearly
cost of medical care for the obese exceeds the cost for a
normal-weight person by $2,460. When absenteeism
from work is considered, the differences in health-care
costs are even greater. Collectively, the obesity epidemic
has placed a tremendous burden on our economy as well
as on our health-care system. The problem is not unique
to the United States, since similar trends are evident in
almost all developed countries.
This concept describes issues associated with over-
weight and obesity as well as the health risks associated
with being too lean. Developing a healthy body image
and avoiding disordered patterns of eating are critical for
optimal health and wellness.
A CLOSER LOOK
ACTIVITY
Let’s Move!
The childhood obesity epidemic is one of the biggest public
health challenges facing our country. A number of national
campaigns have been created to mobilize action and cre-
ate change. These initiatives use a variety of social media to
generate interest and momentum. The Let’s Move! campaign
addresses childhood obesity by adopting a broad community
approach that enlists a variety of partners (community lead-
ers, physicians, teachers, and parents) to help create healthier
environments. The goal is to solve the epidemic of childhood
obesity within a generation.
What changes in society would be needed to reach this goal?
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Concept 13 ▶ Body Composition 291
stress, and poor diet. Amenorrhea may occur, placing
the woman at risk for bone loss (osteoporosis) and other
health problems. A body fat level below 10 percent is one
of the criteria often used by clinicians for diagnosing eat-
ing disorders, such as anorexia nervosa.
Figure 1 shows the health-related standards for body
composition (percent body fat) for both males and females.
Because individuals differ in their response to low fatness,
a borderline range is provided above the essential fat (too
low) zone. Values in this zone are not necessarily consid-
ered to be healthy, but some individuals may seek to have
lower body fat levels to enhance performance in certain
sports. These levels can be acceptable for nonperform-
ers if they can be maintained on a healthy diet and with-
out overtraining. If symptoms such as amenorrhea, bone
loss, and frequent injury occur, then levels of body fatness
should be reconsidered, as should training techniques and
eating patterns. For many people in training, maintaining
performance levels of body fatness is temporary; thus, the
risk for long-term health problems is diminished.
Fat that is stored above essential fat levels is classi-
fied as nonessential fat . Just as percent body fat should
not drop too low, it should not get too high. The healthy
range for body fatness in males is between 10 and 20 per-
cent, while the healthy range for women is between 17
and 28 percent. These levels are associated with good
metabolic fitness, good health, and wellness. The mar-
ginal zone includes levels that are above the healthy fit-
ness zone but not quite into the range used to reflect
obesity . The term obesity often carries negative connota-
tions and stereotypes, but it is important to understand
that it is a clinical term that simply means excessively
high body fat. Lab 13A provides opportunities for you to
assess your level of body fatness.
Health standards have been established for the
Body Mass Index. The Body Mass Index (BMI) is a
commonly used indicator of overweight and obesity in our
society but is often misunderstood. The measure of BMI is
basically an indicator of your weight relative to your height.
It does not provide an indicator of body fatness, although
BMI values tend to correlate with body fatness in most
people. Because of this association, it is widely used in clini-
cal settings and as a general indicator of body composition.
Because BMI is a frequently used measure, you should
know how to calculate and interpret your BMI and your
“healthy weight range.” Mathematically, BMI is calcu-
lated with the following formula: BMI 5 weight (kg)/
(height [m] 3 height [m]). Instructions for calculating
BMI, including the nonmetric formula and rating charts,
are provided in the Lab Resource Materials (page 311).
There are also many BMI calculators on the Internet that
make it easy to calculate.
Too low Borderline Good fitness Marginal At risk
Too low Borderline Good fitness Overweight* Obesity*
Male 5 or less Body fatness
(percent body fat) Female 10 or
less
6–9
11–16
10–20
17–28
21–25
29–35
26+
36+
12 or less
12 or less
13–16
13–16
17–25
17–25
26–30
26–30
30+
30+
Male Body mass Index
(kg/m2)Female
Figure 1 ▶ Health-related standards for body fatness (percent body fat) and body mass index.
*Note: Based on international standards used for BMI classification.
Percent Body Fat The percentage of total body
weight that is composed of fat.
Essential Fat The minimum amount of fat in the
body necessary to maintain healthful living.
Underfat Too little of the body weight composed
of fat.
Amenorrhea Absent or infrequent menstruation.
Nonessential Fat Extra fat or fat reserves stored
in the body.
Obesity A clinical term for a condition character-
ized by an excessive amount of body fat (or extremely
high BMI).
Body Mass Index (BMI) A measure of body com-
position using a height-weight formula. High BMI
values have been related to increased disease risk.
Overweight A clinical term that implies higher
than normal levels of body fat and potential risk for
development of obesity.
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292 Section 5 ▶ Nutrition and Body Composition
The accepted international standards for defining
overweight and obesity are the same for both men and
women. BMI values over 25 are used to define over-
weight , and values over 30 are used to define obesity.
Figure 1 provides additional information concerning BMI
standards.
While the use of BMI is widely accepted, it does have
limitations. Individuals who do regular physical activity
and who possess considerable muscle mass may show up as
overweight using the BMI. This is because muscle weighs
more than fat, but height and weight measurements do
not detect differences in muscle and fat in the body.
Assessing body weight too frequently can result in
making false assumptions about body composition
changes. People vary in body weight from day to day
and even hour to hour, based solely on their level of
hydration. Short-term changes in weight are often due to
water loss or gain, yet many people erroneously attribute
the weight changes to their diet, a pill they have taken,
or the exercise they recently performed. There is some
evidence that monitoring weight daily can help normal-
weight people from gaining weight. For people trying to
lose weight, monitoring weight less frequently—once a
week, for example—is more useful than taking daily or
multiple daily measures. When you do weigh yourself,
weigh at the same time of day, preferably early in the
morning, because it reduces the chances that your weight
variation will be a result of body water changes. Of course,
it is best to use body composition assessments in addition
to those based on body weight. These are described in the
next section.
Methods Used to Assess
Body Composition
Methods of body composition vary in accuracy and
practicality. A number of techniques have been devel-
oped to assess body composition. They vary in terms of
practicality and accuracy, so it is important to understand
the limitations of each method. Even established tech-
niques have potential for error. The
most common methods are summa-
rized below.
Dual-energy absorptiometry (DXA) has emerged
as the accepted “gold standard” measure of body
composition. The DXA technique uses the attenuation
of two energy sources to estimate the density of the body. A
specific advantage of DXA is that it can provide whole-body
measurements of body fatness as well as amounts stored in
different parts of the body. An additional advantage is that
it provides estimates of bone density. For the procedure,
the person lies on a table and the machine scans up along
VIDEO 2
T E C H N O L O G Y U P D A T E
Counting Bites
Pedometers are popular self-monitoring devices for
tracking physical activity, but people also need ways to
monitor how much they are eating. A new device called
the Bite Counter tracks the number of bites a person
takes. The device is worn on the wrist like a watch and
it is able to detect the movement patterns associated
with moving a fork or spoon from your plate to your
mouth. Movements are apparently similar for foods eaten
with your hands, such as an apple. According to the
developer, it counts bites with 90 percent accuracy. The
research group has determined that, on average, a bite
typically contributes about 25 calories but this is obvi-
ously highly variable.
Pedometers have proven valuable in helping people monitor
their steps in a day. Do you think this would help some people
monitor their calorie consumption?
ACTIVITY
Monitoring weight can be helpful, but measures of body fatness
provide a better indication of body composition.
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Concept 13 ▶ Body Composition 293
the body. While some radiation exposure is necessary with
the procedure, it is quite minimal compared with X-ray
and other diagnostic scans. Because the machine is quite
expensive, this procedure is found only in medical centers
and well-equipped research laboratories. The DXA (also
called DEXA) procedure provides scientists with a highly
accurate measure of body composition for research and
a criterion measure that has been used to validate other,
more practical measures of body composition.
Underwater weighing and Bod Pod are two highly
accurate methods. Underwater weighing is another
excellent method of assessing body fatness. Before the
development of DXA it was considered to be the “gold
standard” method of assessment. In this technique, a
person is weighed in air and underwater, and the differ-
ence in weight is used to assess the levels of body fatness.
People with a lot of muscle, bone, and other lean tissue
sink like a rock in water because muscle and other lean
tissue are dense. Fat is less dense, so people with more fat
tend to float in a water environment. A limitation of this
method is that participants must exhale all their air while
submerged in order to obtain an accurate reading. Addi-
tional error from the estimations of residual lung vol-
umes also tends to reduce the accuracy of this approach.
A device called the Bod Pod uses the same principles
as underwater weighing, but relies on air displacement to
assess body composition. Evidence suggests that it pro-
vides an acceptable alternative to underwater weighing
and is particularly useful for special populations (obese
older people and the physically challenged).
Skinfold measurements are a practical method
of assessing body fatness. About one-half of the
body’s fat is located around the various body organs
and in the muscles. The other half of the body’s fat is
located just under the skin, or in skinfolds. A skinfold
( Figure 2 ) is two thicknesses of skin and the amount
of fat that lies just under the skin. By measuring skin-
fold thicknesses of various sites around the body, it is
possible to estimate total body fatness ( Figure 3 ). Skin-
fold measurements are often used because they are
relatively easy to do. They are not nearly as costly as
underwater weighing and other methods that require
expensive equipment. Research-quality skinfold cali-
pers cost more than $100, but consumer models are
available for $10 to $20.
In general, the more skinfolds measured, the more
accurate the fatness estimate. However, measurements
with two or three skinfolds have been shown to be rea-
sonably accurate and can be done in a relatively short
period. Two skinfold techniques are used in Lab 13A.
You are encouraged to try both. With adequate training,
most people can learn to use calipers to get a good esti-
mate of fatness.
Bioelectric impedance analysis has become a
practical alternative for body fatness assessment.
Bioelectric impedance analysis (BIA) ranks quite favor-
ably for accuracy and has overall rankings similar to those
of skinfold measurement techniques. The test can be per-
formed quickly and is more effective for people high in
body fatness (a limitation of skinfolds). The technique
is based on measuring resistance to current flow. Elec-
trodes are placed on the body and low doses of current
are passed through the skin. Because muscle has greater
water content than fat, it is a better conductor and has
less resistance to current. The overall amount of resis-
tance and body size are used to predict body fatness. The
results depend heavily on hydration status, so do not test
Figure 2 ▶ Location of body fat.
Skin
Fat
Muscle
Bone
Figure 3 ▶ Measuring skinfold thickness with calipers.
Muscle
Skin
Skinfold
Caliper
Fat
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294 Section 5 ▶ Nutrition and Body Composition
Health Risks Associated
with Overfatness
Obesity contributes directly and indirectly to a
number of major health problems. The presence of
excess body fat impairs the function of most systems of
the body (e.g., the cardiovascular system, the pulmonary
system, the skeletal system, the reproductive system, and
the metabolic system). It also increases risks for a variety
of diseases, including a variety of cancers. The American
Heart Association classifies obesity as a primary risk fac-
tor, along with high blood pressure and high blood lipids
(both associated with overweight and obesity). When all
the evidence is considered, it is clear that overweight is
associated with many health problems and obesity places
a person at special risk (see Figure 4 ).
after exercising or immediately after eating or drinking.
Accuracy is also affected by the quality of the equipment.
Portable BIA scales are available that allow you to simply
stand on metal plates to get an estimate of body fatness.
These devices are easier to use but are less accurate than
those that use electrodes for both upper and lower body.
Infrared sensors are sometimes used to assess
body fatness. Near-infrared interactance machines use
the absorption of light to estimate body fatness. The tech-
nique was originally developed to measure the fat con-
tent of meats. Commercially available units for humans
have not been shown to be effective for estimating body
fat, and at least one company has faced sanctions from the
government for selling an unapproved product. For this
reason, this type of device is not recommended.
Pulmonary disease:
• Abnormal function
• Obstructive sleep apnea
• Hypoventilation
Liver:
• Liver disease
• Cirrhosis
Gallbladder disease
Back pain
Pancreas:
• Severe pancreatitis
Metabolism
(Metabolic Syndrome)
• High LDL cholesterol
• Diabetes
• Low insulin sensitivity
• Increased apolipoprotein B
• Increased C-reactive protein
Gynecological problems:
• Abnormal menses
• Infertility
• Polycystic ovarian syndrome
Brain/Head:
• Intracranial hypertension
• Increased risk of stroke
Eyes:
• Risk of cataracts
Heart: Coronary heart disease
• Increased stress on heart
• Hypertension
Cancer risk
• Breast cancer
• Uterine cancer
• Cervical cancer
• Colon cancer
• Esophageal cancer
• Pancreatic cancer
• Kidney cancer
• Prostate cancer
Osteoarthritis
Skin problems
Phlebitis
• Venous stasis
• Impaired circulation
Gout
Figure 4 ▶ Diseases and medical complications associated with obesity.
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Concept 13 ▶ Body Composition 295
Studies indicate that overweight and obesity and
associated unhealthy lifestyles (e.g., sedentary living and
unhealthy eating) are the second leading actual cause of
death. One study indicates that obesity and smoking are
equal in their overall burden on the health-care system.
Smoking has decreased 18.5 percent in the past two
decades, while obesity rates increased by 85 percent. If
current trends continue, obesity and overweight will soon
surpass smoking as the number one cause of early death.
Obesity contributes to early death. In addition to the
higher incidence of certain diseases and health problems,
people who are moderately overfat have a 40 percent higher
than normal risk of shortening their lifespan. More severe
obesity results in a 70 percent higher than normal death rate.
A study of nearly one million adults suggests that obesity can
cut 8 to 10 years from life expectancy. Another recent study
indicates that extreme obesity shortens life by 12 years.
Statistics indicate that underweight people also have
a higher than normal risk for premature death. Though
adequate evidence shows extreme leanness (e.g., anorexia
nervosa) can be life threatening, underweight people may
have lost weight because of a medical condition such as
cancer. It appears that the medical problems are often the
reason for low body weight rather than low body weight
being the source of the medical problem. Most experts
agree that people who are free from disease and who have
lower than average amounts of body fat have a lower than
average risk for premature death.
Physical fitness provides protection from the health
risks of obesity. A general assumption in our society is
that if you are thin, you are probably fit and healthy and if
you are overweight, you are unfit and unhealthy. A series
of studies from the Aerobic Center Longitudinal Study
(a large cohort study of patients from the Cooper Clinic
in Dallas, Texas) has demonstrated that the health risks
associated with overweight are greatly reduced by regu-
lar physical activity and reasonable levels of cardiovascular
fitness (see Figure 5 ). In fact, the findings consistently
show that active people who have a high BMI are at less
risk than inactive people with normal BMI levels. Even
high levels of body fatness may not be especially likely to
increase disease risk if a person has good metabolic fit-
ness as indicated by healthy blood fat levels, normal blood
pressure, and normal blood sugar levels. It is when several
of these factors are present at the same time that risk lev-
els increase dramatically. For this reason, it is important to
consider your cardiovascular and metabolic fitness levels
before drawing conclusions about the effects of high body
weight or high body fat levels on health and wellness. This
information also points out the importance of periodically
assessing your cardiovascular and metabolic fitness levels.
Excessive abdominal fat and excessive fat of
the upper body can increase the risk for various
diseases. The location of body fat can influence the
health risks associated with obesity. Fat in the upper
part of the body is sometimes referred to as “Northern
Hemisphere” fat, and a body type high in this type of fat
is called the “apple” shape (see Figure 6 ). Upper-body fat
is also referred to as android fat because it is more char-
acteristic of men than women. Postmenopausal women
typically have a higher amount of upper body fat than
premenopausal women. Lower body fat, such as in the
hips and upper legs, is sometimes referred to as “South-
ern Hemisphere” fat. This body type is called the “pear”
0.0
0.5
1.0
1.5
2.0
2.5
R
el
at
iv
e
ri
sk
o
f
al
l-
ca
u
se
m
o
rt
al
it
y
Normal
Fit
Unfit
Overweight
Obese
Figure 5 ▶ Risks of fatness vs. fitness.
Source: Lee, C. D., et al.
Figure 6 ▶ Visceral, or abdominal, fat is associated with
increased disease risk.
Visceral fat
Subcutaneous fat
Kidney
Kidney
Liver
Abdominal
muscle
Spine
Skin
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296 Section 5 ▶ Nutrition and Body Composition
shape. Lower-body fat is also referred to as gynoid fat
because it is more characteristic of women than men.
Body fat located in the core of the body is referred to
as central fat or visceral fat. Visceral fat is located in the
abdominal cavity (see Figure 6 ), as opposed to subcutane-
ous fat, which is located just under the skin. Though sub-
cutaneous fat (skinfold measures) can be used to estimate
body fatness, it is not a good indicator of central fatness.
Your waist size is a useful indicator of visceral fat distri-
bution. It can be used alone, in combination with BMI,
in combination with your gender and height, and/or in
combination with hip size (waist-to-hip ratio) to deter-
mine health risk (see Lab Resource Materials). Visceral fat is
considered more harmful than other forms and is associ-
ated with high blood fat levels as well as other metabolic
problems. It is also associated with high incidence of heart
attack, stroke, chest pain, breast cancer, and early death.
Part of the benefit of aerobic activity for health appears
to be its ability to promote the preferential loss of abdom-
inal body fat. Several recent studies have shown that
higher levels of activity and/or higher cardiorespiratory
fitness are associated with lower levels of abdominal body
fatness independent of body mass index. In other words,
if one person who is fit and active has the same height and
weight as a less active person, he or she will likely have
a lower amount of abdominal fat. These studies provide
a clear understanding of how fitness may protect against
the health risks of obesity and improve overall health.
Health effects of obesity may be mediated by
circulating “adipokines.” Research has recently shown
that the fat cell is not only a storage depot, but also an
active protein-secreting organ. The biomolecules secreted
by adipose tissue are known as adipokines or adipocyto-
kines. A number of adipokines have been identified, includ-
ing adiponectin, visfatin, resistin, and leptin. Each has an
important role, but adiponectin appears to play a particu-
larly important role in energy balance, insulin resistance,
and atherosclerosis. Studies show that adiponectin has
an anti-atherosclerotic effect while also reducing platelet
aggregation, which can contribute to formation of blood
clots. In contrast, adiponectin deficiency appears to lead
to metabolic dysfunction, insulin resistance, fatty liver dis-
ease, and also to a wide array of cancers. Current evidence
supports that aerobic exercise, alone or combined with
hypocaloric diet, improves symptoms of the metabolic
syndrome, possibly by altering levels of adipokines.
Health Risks Associated with
Excessively Low Body Fatness
Excessive desire to be thin or low in body weight
can result in health problems. In Western society, the
near obsession with thinness has been, at least in part,
responsible for eating disorders. Eating disorders, or
altered eating habits, involve extreme restriction of food
intake and/or regurgitation of food to avoid digestion. The
most common disorders are anorexia nervosa, binge-eat-
ing, bulimia, and anorexia athletica. All of these disorders
are most common among highly achievement-oriented
girls and young women, although they affect virtually all
segments of the population. Patterns of “disordered eat-
ing” are not the same as clinically diagnosed eating disor-
ders. People who adopt disordered eating, however, tend
to have a greater chance of developing an eating disor-
der. It is interesting to note that in 1974 the percentage of
underweight Americans was 3.6. Today half that percent-
age (1.8) of Americans is classified as underweight.
Anorexia nervosa is the most severe eating
disorder. If untreated, it is life threatening. Anorexics
restrict food intake so severely that their bodies become
emaciated. Among the many characteristics of anorexia
nervosa are fear of maturity and inaccurate body image.
The anorexic starves himself or herself and may exercise
compulsively or use laxatives to prevent the digestion
of food in an attempt to attain excessive leanness. The
anorexic’s self-image is one of being too fat, even when
the person is too lean for good health. Assessing body
fatness using procedures such as skinfolds and observa-
tion of the eating habits may help identify people with
anorexia. Among anorexic girls and women, development
of an adult figure is often feared. People with this disorder
must obtain medical and psychological help immediately,
as the consequences are severe. About 25 percent of those
with anorexia do compulsive exercise in an attempt to
stay lean. Anorexia is a very serious medical condition
that deserves more discussion than can be provided in
this book.
Binge-eating is the most common eating
disorder in the United States. According to the
American Psychiatric Association, you are a binge-eater
if you meet these three criteria: (1) eat larger amounts
of food than most people eat in a short time; (2) feel
out of control while bingeing at least once a week for
three months; and (3) do three or more behaviors, such
as feeling depressed about your binges, eating alone to
avoid embarrassment about amounts eaten, eating large
amounts when not hungry, eating more rapidly than
normal, or continuing to eat when you feel full. While
binge-eating can be a serious disorder, it can be treated
effectively. One study showed that 64 percent of binge-
eaters who received therapy and reading material were
binge free after only one year.
Bulimia is a common eating disorder characterized
by bingeing and purging. Disordered eating pat-
terns become habitual for many people with bulimia.
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Concept 13 ▶ Body Composition 297
A bulimic might binge after a relatively long period of
dieting and consume excessive amounts of junk foods
containing empty calories. After a binge, the bulimic
purges the food by forced regurgitation or the use of
laxatives. Another form of bulimia is bingeing on one
day and starving on the next. The consequences of buli-
mia include serious mental, gastrointestinal, and den-
tal problems. Bulimics may or may not be anorexic. It
may not be possible to use measures of body fatness to
identify bulimia, as the bulimic may be lean, normal, or
excessively fat.
Anorexia athletica is a more recently identified
eating disorder that appears to be related to
participation in sports and activities emphasizing
body leanness. Studies show that participants in
sports such as gymnastics, wrestling, and bodybuilding
and activities such as ballet and cheerleading are most
likely to develop anorexia athletica. This disorder has
many of the symptoms of anorexia nervosa, but not of
the same severity. In some cases, anorexia athletica leads
to anorexia nervosa.
Female athlete triad is an increasingly common
condition among female athletes. The triad refers to
the presence of three related and linked symptoms that
affect some women athletes (eating disorders/low energy
availability, amenorrhea, and decreased bone mineral
density). The conditions are linked because low body fat
levels lead to the amenorrhea. The alterations in men-
strual cycles lead to low levels of estrogen which sub-
sequently lead to the reduced bone density and risk for
osteoporosis.
The female athlete triad is one of the more challeng-
ing conditions to treat because it often goes undetected.
Once identified or diagnosed, it is hard to change
because the three components of the triad are thought
to be linked pathophysiologically. The athlete is very
serious about performance and has likely developed
altered eating patterns to control body weight. Efforts
to bring about change often result in resistance, since
the compulsion to be thin and perform well overrides
other concerns, such as eating well, moderating exer-
cise, and having a normal menstrual cycle. The ACSM
recommends regular screening exams to identify those
with the triad and rule changes in women’s sports to
“discourage unhealthy weight loss practices.” Nutrition
counseling is recommended for those with the triad, and
psychotherapy is recommended for athletes with eating
disorders.
Many female athletes train extensively and have rel-
atively low body fat levels but experience none of the
symptoms of the triad. Eating well, training properly,
using stress-management techniques, and monitoring
health symptoms are the keys to their success.
Muscle dysmorphia is an emerging problem among
male athletes. Muscle dysmorphia is a body dysmor-
phic disorder in which a male becomes preoccupied
with the idea that his body is not sufficiently lean and/
or muscular. Athletes with this condition may be more
inclined to use performance-enhancing drugs, to exercise
while sick, or to have an eating disorder. Additional risks
include depression and social isolation.
Fear of obesity and purging disorder are other
identified conditions. Fear of obesity is most common
among achievement-oriented teenagers who impose a
self-restriction on caloric intake because they fear obe-
sity. Consequences include stunting of growth, delayed
puberty, delayed sexual development, and decreased
physical attractiveness. Purging disorder, a condition
that results in purging similar to bulimia, but without the
bingeing, has recently been identified. People with these
conditions should seek assistance.
The Origin of Fatness
Obesity is a multifactorial disease that is
influenced by both genetics and the environment.
The evidence documenting a genetic component to
human obesity is quite compelling. There is clear cluster-
ing of obesity within families, and studies have docu-
mented high concordance of body composition in
identical twins. Studies of adopted children have also
demonstrated that there is an association between the
BMI of adoptees and the biologic parents, but not with
the adoptee parents. Despite the clear evidence, the role
of genetic factors is still not well understood. Genetic
mapping studies suggest that a number of genes may
work in combination to influence susceptibility to obe-
sity. These susceptibility genes may not lead directly to obe-
sity but may predispose a person to overweight or obesity
if exposed to certain environmental conditions.
Thus, the prevailing model guiding obesity research is
that complex genetic and environmental variables inter-
act to increase potential risks for obesity. Genetic factors,
by themselves, cannot account for the increases in obesity
because the gene pool does not change that rapidly. Recent
research has shown that lack of sleep can increase risk for
overweight (particularly in youth). Excessive screen time
(TV and computer use) and sitting time increase risk of
obesity. Future research will allow genetic factors to be
integrated with behavioral and envi-
ronmental data so that the combined
effects can be better understood.
Body weight is regulated and maintained through
complex regulatory processes. Some scholars have
suggested that the human body type, or somatotype ,
VIDEO 3
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298 Section 5 ▶ Nutrition and Body Composition
is inherited. Clearly, some people have more diffi-
culty than others controlling fatness, and this may be
because of their somatotype and genetic predisposition.
Regulatory processes appear to balance energy intake
and energy expenditure so that body weight stays near
a biologically determined set-point . The regulation is
helpful for maintaining body weight but can be frustrat-
ing for people trying to lose weight. If a person slowly
tries to cut calories, the body perceives an energy imbal-
ance and initiates processes to protect the current body
weight. The body can accommodate to a new, higher
set-point if weight gain takes place over time, but there
is greater resistance to adopting a lower set-point. Many
people lose weight, only to see the weight come back
months later. One of the reasons exercise is so critical
for weight maintenance is that it may help in resetting
this set-point.
In recent years, the mechanisms involved in the reg-
ulation of the biological set-point have become better
understood. The current view is that there are complex
feedback loops among fatty tissues, the brain, and endo-
crine glands, such as the pancreas and the thyroid. The
compound leptin plays a crucial role in altering appetite
and in speeding up or slowing down the metabolism.
Leptin levels rise during times of energy excess in order
to suppress appetite and fall when energy levels are low to
stimulate appetite. Resistance to leptin has been hypoth-
esized as a possible contributor to obesity. A number of
other compounds also appear to be involved in the com-
plex processes regulating energy balance. Problems with
the thyroid gland can lead to impairments in metabolic
regulation, but these do not contribute to overfatness in
most people.
Fatness early in life leads to adult fatness.
Although there are exceptions, individuals who are
overweight or obese as children are more likely to be
overweight or obese as adults. One explanation for this
is that overfatness in children causes the body to pro-
duce more fat cells. Research has even suggested that
the neonatal environment that the child is exposed to
during development may also influence future risks for
obesity. It appears that hormones and lipids circulating
in the maternal blood can interact with genetic factors to
establish metabolic conditions that contribute to over-
fatness. While these factors influence body composition,
it is still possible to improve body composition by adopt-
ing healthy lifestyles.
Maintaining healthy levels of body fat is an impor-
tant objective for children and adults. It was previously
thought that only adult obesity was related to health
problems, but it is now apparent that teens who are over-
fat are at a greater risk for heart problems and cancer
than leaner peers. Obese children have been found to
have symptoms of “adult-onset diabetes,” and obese chil-
dren have a higher than normal risk of premature death,
indicating that the effects of obesity can impair health,
even for young people. Concerns about the current and
future implications of childhood obesity have made it one
of the greatest public health concerns facing our country.
A variety of national organizations have targeted obesity
prevention as a top priority. (See information on the Let’s
Move! campaign on page 290.) The momentum gener-
ated from these campaigns is encouraging, but it must
translate into progressive policies and programming to
create such a change.
Changes in basal metabolic rate can be the cause
of obesity. Your basal metabolic rate (BMR) is the
largest component of total daily energy expenditure.
BMR is typically expressed in the number of calories
needed to maintain your body functions under resting
conditions. When resting, your body expends calories
because your heart is pumping and other body organs
are working. Processing the food you eat also expends
calories. People with more lean tissue have a higher BMR
Lack of Sleep Is Associated with Overweight
Most people know that sleep is important
for good health, but it also may contribute to
maintaining a healthy weight. A number of studies have demon-
strated inverse associations between sleep and overweight but
it has proven difficult to understand the biological mechanisms.
Recent studies suggest that sleep loss may impose demands
on the metabolism that trigger hormonal and behavior adap-
tations that increase food intake and conservation of energy.
Scientists speculate that this response may have evolved as a
way for primitive man to conserve energy during periods with
limited food availability but it is problematic in modern soci-
ety with food abundance. The findings point out how different
lifestyles can interact to influence weight status and wellness .
How do these findings about sleep influence your views about health
and wellness?
L
M
f
ACTIVITY
In the News
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Concept 13 ▶ Body Composition 299
than those with less lean tissue and greater amounts of
body fat. People that are physically active will also have a
higher BMR on days they exercise, contributing to long-
term weight control.
BMR is highest during the growing years. The amount
of food eaten increases to support this increased energy
expenditure. When a person reaches full growth, the
BMR is determined primarily by the amount of muscle
mass a person has. Regular physical activity throughout
life helps keep the muscle mass higher, resulting in a
higher BMR. Evidence suggests that regular exercise can
contribute in other ways to increased BMR. For example,
BMR can stay elevated for up to 10 hours following a
bout of vigorous physical activity. The higher BMR helps
burn extra calories during the day.
“Creeping obesity” is a problem as you grow
older. With age, people tend to become less active,
causing declines in BMR. Caloric intake does seem to
decrease somewhat with age, but the decrease does not
adequately compensate for the decreases in BMR and
activity levels. For this reason, body fat increases gradu-
ally with age for the typical person (see Figure 7 ). This
increase in fatness over time is commonly referred to
as “creeping obesity” because the increase in fatness is
gradual. For a typical person, creeping obesity can result
in a gain of 1/2 to 1 pound per year. People who stay
active can keep muscle mass high and delay changes in
BMR. For those who are not active, it is suggested that
caloric intake decrease by 3 percent each decade after 25
so that by age 65 caloric intake is at least 10 percent less
than it was at age 25. The decrease in caloric intake for
active people need not be as great.
The Relationship between
Physical Activity and Body
Composition
A combination of regular physical activity and
dietary restriction is the most effective means of
losing body fat. Studies indicate that regular physical
activity combined with dietary restriction is the most
effective method of losing fat. Diet alone can contribute
to weight loss, but much of this loss is actually lean tis-
sue. When physical activity and diet are both used in a
Somatotype A term that refers to a person’s body
type. One researcher (Sheldon) suggested that there
are three basic body types: ectomorph (linear), meso-
morph (muscular), and endomorph (round).
Set-point A theoretical concept that describes the
way the body protects current weight and resists
change.
Basal Metabolic Rate (BMR) Energy expenditure
in a basic, or rested, state.
Calories Units of energy supplied by food; the
quantity of heat necessary to raise the temperature
of a kilogram of water 18C (actually, a kilocalorie, but
usually called a calorie for weight control purposes).
Diet The usual food and drink for a person or an
animal.
0
500
1000
1500
2000
2500
3000
0 35 45 55 65
Calorie Intake
Calorie Expenditure
Basal Metabolic Rate
Physical Activity
Bo
dy
Fa
tne
ss
Figure 7 ▶ Creeping obesity.
Health is available to Everyone for a
Lifetime, and it’s Personal
The “freshman 15” is a term used for the weight gain
that often happens to college students during their first
year in college. Research verifies that first year col-
lege students do gain weight though the average gain
is closer to 6–9 pounds. Over four years of college the
average student gains 10 pounds. Students attribute
the gain to factors such as being less active, eating
when stressed, and drinking more. While this is common
among college students, the weight proves difficult for
many students to lose after college.
What steps can you take to maintain a healthy weight during
the college years?
ACTIVITY
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300 Section 5 ▶ Nutrition and Body Composition
weight loss program, the same amount of weight may be
lost but more of it is from fat. This is obviously beneficial
for appearance and for participation in physical activity,
but it can also help maintain resting metabolic rate at a
higher level. This can contribute to further weight loss
or facilitate weight maintenance. For optimal results, all
weight loss programs should combine a lower caloric
intake with a good physical exercise program. Table 1
presents thresholds of training and target zones for body
fat reduction, including information for both physical
activity and diet. A general guideline is to try to lose no
more than 1 to 2 pounds a week. Because a pound of fat
contains 3,500 calories (see note in Table 1 ), this requires
a caloric deficit of approximately 500 calories per day.
Individuals interested in maintaining body composition
should aim for caloric balance . Individuals who want to
increase lean body mass need to increase caloric intake
while carefully increasing the inten-
sity and duration of their physical
activity (mainly muscular activity).
Physical activity can help expend extra energy
needed to promote weight loss. The ACSM and
national activity guidelines recommend a minimum
of 30 minutes of moderate to vigorous activity a day or
150 minutes per week (see Table 1 ) but acknowledge that
this may not be enough for some people. More time is
often needed either to maintain weight over time or to
lose weight. The ACSM guidelines suggest that it may be
necessary to work progressively up to 200 to 300 minutes
a week to expend enough calories to lose weight. One
study found that women who maintained weight across
the lifespan average approximately 60 minutes of activity
per day. Calories expended in various activities are pre-
sented in Table 2.
Energy balance principles apply for both weight
maintenance and weight gain. Table 1 focuses on
weight loss because overweight and obesity are preva-
lent in our society and many adults are currently diet-
ing (approximately 33 percent), while another one-third
are taking other steps to lose weight. For normal-weight
people, maintenance is important, and balancing energy
intake with energy expenditure is the key. There is little
doubt that preventing overweight in the first place will
help people avoid the more difficult task of losing weight.
For those interested in weight gain, extra calorie intake is
required, following the sound eating practices described
in Concepts 14 and 15. Resistance training is also recom-
mended because it builds muscle mass.
Table 1 ▶ Threshold of Training and Target Zones for Body Fat Reduction
Threshold of Training* Target Zones*
Physical Activity Diet Physical Activity Diet
Frequency • To be effective, activity
must be regular, preferably
daily, though fat can be
lost over the long term with
almost any frequency that
results in increased caloric
expenditure.
• Reduce caloric intake
consistently and daily. To
restrict calories only on
certain days is not best,
though fat can be lost over
a period of time by reduc-
ing caloric intake at any
time.
• Daily moderate activity is
recommended. For people
who do regular vigorous
activity, 3 to 6 days per
week may be best.
• It is best to diet consis-
tently and daily.
Intensity • To lose 1 pound of fat,
you must expend 3,500
calories more than you
normally expend.
• To lose 1 pound of fat, you
must eat 3,500 calories
fewer than you normally
eat.
• Slow, low-intensity aerobic
exercise that results in no
more than 1 to 2 pounds of
fat loss per week is best.
• Modest caloric restriction
resulting in no more than
1 to 2 pounds of fat loss
per week is best.
Time • To be effective, exercise
must be sustained long
enough to expend a
considerable number
of calories. At least
15 minutes per exercise
bout are necessary to
result in consistent fat loss.
• Eating moderate meals is
best. Do not skip meals.
• Exercise durations similar
to those for achieving aer-
obic cardiovascular fitness
seem best. Exercise of 30
to 60 minutes in duration is
recommended.
• Eating moderate meals
is best. Skipping meals
or fasting is not most
effective.
Note: A gram of fat is 9 calories; thus, a pound is equal to 4,086 calories (9 cal/g 3 454 g/pound). However, fat in the body is 10 percent water and contains some
protein and minerals that reduce the effective caloric equivalent to 3,500 calories (the accepted standard).
*It is best to combine exercise and diet to achieve the 3,500-calorie imbalance necessary to lose a pound of fat. Using both exercise and diet in the target zone is most
effective.
VIDEO 4
Caloric Balance Consuming calories in amounts
equal to the number of calories expended.
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Concept 13 ▶ Body Composition 301
Table 2 ▶ Calories Expended per Hour in Various Physical Activities (Performed at a Recreational Level)*
Calories Used per Hour
Activity 100 lb. (46 kg) 120 lb. (55 kg) 150 lb. (68 kg) 180 lb. (82 kg) 200 lb. (91 kg)
Archery 180 204 240 276 300
Backpacking (40-lb. pack) 307 348 410 472 513
Badminton 255 289 340 391 425
Baseball 210 238 280 322 350
Basketball (half-court) 225 255 300 345 375
Bicycling (< 10 mph) 182 218 273 327 364
Bowling 136 164 205 245 273
Canoeing 227 273 341 409 455
Circuit training 247 280 330 380 413
Dance, aerobics 315 357 420 483 525
Dance, ballet (choreographed) 240 300 360 432 480
Dance, modern (choreographed) 240 300 360 432 480
Dance, social 205 245 307 368 409
Fencing 225 255 300 345 375
Fitness calisthenics 232 263 310 357 388
Football 225 255 300 345 375
Golf (walking) 250 300 375 450 500
Gymnastics 232 263 310 357 388
Handball 450 510 600 690 750
Hiking 225 255 300 345 375
Horseback riding 182 218 273 327 364
Interval training 487 552 650 748 833
Jogging (5 1/2 mph) 487 552 650 748 833
Judo/karate 232 263 310 357 388
Mountain climbing 450 510 600 690 750
Pool/billiards 97 110 130 150 163
Racquetball/paddleball 450 510 600 690 750
Rope jumping (continuous) 525 595 700 805 875
Rowing, crew 615 697 820 943 1025
Running (10 mph) 625 765 900 1035 1125
Sailing (pleasure) 135 153 180 207 225
Skating, ice 262 297 350 403 438
Skating, roller/inline 262 297 350 403 438
Skiing, cross-country 318 382 477 573 636
Skiing, downhill 450 510 600 690 750
Soccer 405 459 540 621 775
Softball (fast-pitch) 210 238 280 322 350
Softball (slow-pitch) 217 246 290 334 363
Surfing 416 467 550 633 684
Swimming (fast laps) 420 530 630 768 846
Swimming (slow laps) 273 327 409 491 545
Table tennis 182 218 273 327 364
Tennis 315 357 420 483 525
Volleyball 262 297 350 403 483
Walking 173 207 259 311 346
Waterskiing 306 390 468 564 636
Weight training 352 399 470 541 558
*Locate your weight to determine the calories expended per hour in each of the activities shown in the table based on recreational involvement. More vigorous activity,
as occurs in competitive athletics, may result in greater caloric expenditures.
Source: Corbin and Lindsey.
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302 Section 5 ▶ Nutrition and Body Composition
Whether you are trying to maintain, gain,
or lose weight, know how many calories you
consume in food and expend in the activities you
perform. Appendix C provides estimates of calories
in some common foods. The MyPlate (Food-A-Pedia)
website included in the Web Resources for this con-
cept provides a comprehensive list of calories in foods.
Strength training can be effective in maintaining
a desirable body composition. Performing exercises
from the strength and muscular endurance level of the
physical activity pyramid can be effective in maintaining
desirable body fat levels. People who do strength training
increase their muscle mass (lean body mass). This extra
muscle mass expends extra calories at rest, resulting in a
higher metabolic rate. Also, people
with more muscle mass expend more
calories when doing physical activity.
Water contains zero calories and is an excellent alternative to sugary
drinks that are high in calorie content.
Strategies for Action
Doing several self-assessments can
help you make informed decisions
about body composition. In Labs 13A and 13B, you will
take various body composition self-assessments. It is
important that you take all of the measurements and con-
sider all of the information before making final decisions
about your body composition. Each self-assessment tech-
nique has strengths and weaknesses to be aware of when
you make personal decisions. The importance you place on
one particular measure may be different from the importance
another person places on that measure; you are a unique
individual and should use information that is more relevant
for you personally.
Self-assessment results for body composition are personal
and confidential. There are steps that can be taken to assure
confidentiality. When performing the self-assessments, be aware
of the following:
Physical activity can help in regulating body fatness.
VIDEO 5
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Concept 13 ▶ Body Composition 303
Web Resources
Centers for Disease Control and Prevention BMI Information
www.cdc.gov/nccdphp/dnpa/bmi/adult_BMI/about_
adult_BMI.htm
Centers for Disease Control and Prevention Growth Chart
Information www.cdc.gov/growthcharts
FDA Consumer www.fda.gov/fdac
Let’s Move! Campaign www.letsmove.gov
MyPlate www.choosemyplate.gov
MyPlate Food-A-Pedia www.choosemyplate
.gov/SuperTracker/foodapedia.aspx
MyPlate Food Tracker www.choosemyplate
.gov/SuperTracker/foodtracker.aspx
National Heart Lung and Blood Institute (BMI Calculator)
www.nhlbisupport.com/bmi
Nutriwatch (nutrition facts and fallacies) www.nutriwatch.org
Partnership for Healthy Weight Management www.ftc
.gov/bcp/edu/pubs/consumer/health/hea05
Shape Up America www.shapeup.org
STOP Obesity Alliance www.stopobesityalliance.org
Surgeon General’s Call to Reduce Overweight and Obesity
www.surgeongeneral.gov/library/calls/obesity/index
.html
“We Can” Program www.nhlbi.nih.gov/health/public/heart/
obesity/wecan/index.htm
Suggested Readings
ACSM. 2010. ACSM’s Resource Manual for Guidelines for Exer-
cise Testing and Prescription. 6th ed. Philadelphia: Lippincott,
Williams & Wilkins, Chapter 10.
Ball, S., P. Swan, and T. Altena. 2006. Skinfold assessment:
Accuracy and application. Measurement in Physical
Education and Exercise Science 10(4):255–264.
Chan, R. S., and J. Woo. 2010. Prevention of overweight
and obesity: How effective is the current public health
approach. International Journal of Environmental Research on
Public Health 7(3):765–783.
Christakis, N. A., and J. H. Fowler. 2007. The spread of obesity
in a large social network over 32 years. New England Journal
of Medicine 375(4):370–379.
Cohen, D. A., et al. 2010. Not enough fruit and vegetables or
too many cookies, candies, salty snacks, and soft drinks?
Public Health Reports 125(1):88–95.
Eisenmann, et al. 2008. Combined influence of physical
activity and television viewing on the risk of overweight in
US youth. International Journal of Obesity 32(4):613–618.
Finkelstein, E. A. 2010. Individual and aggregate years of
life lost associated with overweight and obesity. Obesity
18(2):333–339.
Flegal, K. M., and B. I. Graubard. 2009. Estimates of excess
deaths associated with body mass index and other anthro-
pometric variables. American Journal of Clinical Nutrition
89(4):1213–1219.
Flegal, K. M., et al. 2010. Prevalence and trends in obesity
among U.S. adults, 1999–2008. Journal of the American
Medical Association 303(3):235–241.
Hardy, L. L., et al. 2010. Screen time and metabolic risk factors
among adolescents. Archives of Pediatric and Adolescent
Medicine 164(7):643–649.
Herman, K. M., et al. 2009. Tracking of obesity and physical
activity from childhood to adulthood: The Physical Activity
1. If doing a self-assessment around other people makes
you self-conscious, do the measurement in private. If the
measurement requires the assistance of another person,
choose a person you trust and feel comfortable with.
2. Estimates of body composition from even the best tech-
niques may be off by as much as 2 to 3 percent. The values
should be interpreted only as estimates.
3. The formulas used to determine body fatness from skin-
folds and other procedures are based on typical body
types. Measurement will be larger for the very lean and for
people with higher than normal levels of fat.
4. Some measurements, such as the thigh skinfold, are hard
to take on some people. This is one reason two different
skinfold procedures are presented.
5. Self-assessments require skill. With practice, you can
become skillful in making measurements. Your first few
attempts will, no doubt, lack accuracy.
6. Use the same measuring device each time you measure
(scale, calipers, measuring tape, etc.). This assures that
any measurement error is constant and allows you to track
your progress over time.
7. Once you have tried all of the self-assessments in Lab
13A, choose the ones you want to continue to do and use
the same measurement techniques each time. Consider
assessing your body composition with some of the other
techniques described in the concept.
Estimate your BMR to determine the number of calories
you expend each day. In Lab 13C, you can estimate your
BMR, giving you an idea of how much energy you expend
when you are resting. Use this information together with the
information about the energy you expend in activities to help
you balance the calories you consume with the calories you
expend each day.
Log your daily activities to determine the number of calories
you expend each day in these activities. In Lab 13C, you
will also log the activities you perform in a day. Then deter-
mine your energy expenditure in these activities. Combine this
information with the information about your basal metabolism
to determine your total daily energy expenditure.
ACTIVITY
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Penev, P. D. 2012. Update on energy homeostasis and
insufficient sleep. Journal of Clinical Endocrinology and
Metabolism. March.
Perusse, L., et al. 2005. The human obesity gene map: The
2004 update. Obesity Research 13(3):381–490.
Phillips, K. A., et al. 2010. Body dysmorphic disorder: Some
key issues for DSM-V. Depression and Anxiety 27(6):573–591.
Prospective Studies Collaboration. 2009. Body-mass index
and cause-specific mortality in 900,000 adults:
Collaborative analyses of 57 prospective studies. Lancet
373(9669):1083–1096.
Ruiz, J. R., et al. 2010. Attenuation of the effect of the FTO
rs9939609 polymorphism on total and central body fat
by physical activity in adolescents: The HELENA Study.
Archives of Pediatric and Adolescent Medicine 164(4):328–333.
Shehzad, A., et al. 2012. Adiponectin: Regulation of its produc-
tion and its role in human diseases. Hormones 11(1):8–20.
Stewart, S. 2009. Forecasting the effects of obesity and
smoking on U.S. life expectancy. New England Journal of
Medicine 361(23):2252–2260.
Surgeon General’s Vision for a Healthy and Fit Nation. 2010
(fact sheet). Available at www.surgeongeneral.gov .
Vella-Zarb, R. A., and F. J. Elgar. 2009. The ‘freshman 5’:
A meta-analysis of weight gain in the freshman year of
college. Journal of American College Health 58(2):161–166.
Wang, Y., et al. 2008. Will all Americans become overweight
or obese? Estimating the progression and cost of the U.S.
obesity epidemic. Obesity 16(10):2323–2330.
Westcott, W. 2009. ACSM strength training guidelines: Role in
body composition and health enhancement. ACSM’s Health
and Fitness Journal 13(4):14–22.
Yates, T., et al. 2012. Self-reported sitting time and markers of
inflammation, insulin resistance, and adiposity. American
Journal of Preventive Medicine 42(1):1–7.
Longitudinal Study. International Journal of Pediatric Obesity
4(4):281–288.
Herman, K. M., et al. 2012. Physical activity, body mass index,
and health-related quality of life in Canadian adults. Medicine
and Science in Sports and Exercise 44(4):625–636.
John, J., et al. 2010. Recent economic findings on childhood
obesity: Cost-of-illness and cost-effectiveness of interven-
tions. Current Opinions in Clinical Nutrition and Metabolic
Care 13(3):305–313.
Keel, P. K., et al., 2007. Clinical features and psychological
response to a test meal in purging disorder and bulimia
nervosa. Archives of General Psychiatry 64:1058–1066.
Kuk, J. L., et al. 2006. Visceral fat is an independent predictor
of all-cause mortality in men. Obesity Research 14:336–341.
Kwon, S., et al. 2011. Effects of adiposity on physical activity in
childhood: Iowa bone development study. Medicine & Science
in Sports & Exercise 4(3):443–448.
Li, S., and R. J. Loos. 2008. Progress in the genetics of
common obesity: Size matters. Current Opinions in
Lipidology 19(2):113–121.
Liou, Y. M., et al. 2010. Obesity among adolescents: Seden-
tary leisure time and sleeping as determinants. Journal of
Advances in Nursing 66(6):1246–1256.
Lynch, F. L., et al. 2010. Cognitive behavioral guided self-help
for the treatment of recurrent binge eating. Journal of
Consulting and Clinical Psychology 78(3):312–321.
Lynch, F. L., et al. 2010. Cost-effectiveness of guided self-help
treatment for recurrent binge eating. Journal of Consulting
and Clinical Psychology 78(3):322–333.
Maine, M., B. H. McGilley, and D. Bunnell (Eds.). 2010.
Treatment of Eating Disorders: Bridging the Research-Practice
Gap. London: Academic Press.
Ogden, C. L., et al. 2012. Prevalence of obesity and trends in
body mass index among US children and adolescents,
1999–2010. JAMA 307(5):483–490.
Healthy People
ACTIVITY
2020
The objectives listed below are societal goals designed to
help all Americans improve their health between now and the
year 2020. They were selected because they relate to the con-
tent of this concept.
• Increase proportion of adults with healthy weight.
• Reduce childhood overweight and obesity.
• Reduce disorder eating among adolescents.
• Increase proportion of adults with high LDL who control
weight and get activity.
• Reduce percentage of adults who do no leisure-time
activity.
• Increase work sites that offer nutrition and weight man-
agement classes and counseling.
• Increase physician counseling on nutrition and weight
management.
• Increase BMI measurement by primary doctors.
• Increase policies that give retail food outlets incentives for
foods that meet dietary guidelines.
A national goal is to increase the proportion of adults with a healthy
weight. More than twice as many adults are overweight or obese
than youth. However, studies show that overweight youth are more
likely to become overweight adults. Is it important to focus on
obesity prevention at all ages or should more concentrated efforts
be focused specifically on children to help prevent problems in the
future? What changes would you implement first to help reverse the
obesity epidemic in society?
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Calculating Fatness from Skinfolds
(FITNESSGRAM Method)
1. Sum the three skinfolds (triceps, abdominal, and
calf) for men and women. Use horizontal abdominal
measure.
2. Use the skinfold sum and the appropriate column
(men or women) to determine your percent fat using
Chart 1 . Locate your sum of skinfold in the left col-
umn at the top of the chart. Your estimated body fat
percentage is located where the values intersect.
3. Use the Standards for Body Fatness ( Chart 2 ) to
determine your fatness rating.
FITNESSGRAM Locations
(Men and Women)
Triceps
Make a mark on
the back of the
right arm, one-
half the distance
between the tip
of the shoulder
and the tip of the
elbow. Make the
measurement at
this location.
Abdominal
Make a mark on the skin approximately 1 inch to the right
of the navel. Unlike the Jackson-Pollock method (done
vertically), make a horizontal measurement.
VIDEO 6
General Information about
Skinfold Measurements
It is important to use a consistent procedure for “draw-
ing up” or “pinching up” a skinfold and making the mea-
surement with the calipers. The following procedures
should be used for each skinfold site.
1. Lay the calipers down on a nearby table. Use the
thumbs and index fingers of both hands to draw up
a skinfold, or layer of skin and fat. The fingers and
thumbs of the two hands should be about 1 inch
apart, or 1/2 inch on each side of the location where
the measurement is to be made.
2. The skinfolds are normally drawn up in a vertical
line rather than a horizontal line. However, if the skin
naturally aligns itself less than vertical, the measure-
ment should be done on the natural line of the skin-
fold, rather than on the vertical.
3. Do not pinch the skinfold too hard. Draw it up so
that your thumbs and fingers are not compressing
the skinfold.
4. Once the skinfold is drawn up, let go with your right
hand and pick up the calipers. Open the jaws of
the calipers and place them over the location of the
skinfold to be measured and 1/2 inch from your left
index finger and thumb. Allow the tips, or jaw faces,
of the calipers to close on the skinfold at a level
about where the skin would be normally.
5. Let the reading on the calipers settle for 2 or
3 seconds; then note the thickness of the skinfold in
millimeters.
6. Three measurements should be taken at each loca-
tion. Use the middle of the three values to deter-
mine your measurement. For example, if you had
values of 10, 11, and 9, your measurement for that
location would be 10. If the three measures vary by
more than 3 millimeters from the lowest to the high-
est, you may want to take additional measurements.
Skinfold Measurement Methods
You will be exposed to two methods of using skinfolds.
The first method (FITNESSGRAM) uses the same sites for
men and women. It was originally developed for use with
schoolchildren but has since been modified for adults.
The second method (Jackson-Pollock) is the most widely
used method. It uses different sites for men and women
and considers your age in estimating your body fat per-
centage. You are encouraged to try both methods.
Lab Resource Materials: Evaluating Body Fat
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Calf skinfold
Make a mark on the inside of the calf of the right leg at
the level of the largest calf size (girth). Place the foot
on a chair or other elevation so that the knee is kept at
approximately
90 degrees.
Make a
vertical mea-
surement at
the mark.
Self-Measured Triceps Skinfold
This measurement is made on the left arm so that
the calipers can easily be read. Hold the arm straight
at shoulder height. Make a fist with the thumb faced
upward. Place the fist against a wall. With the right
hand, place the calipers over the skinfold as it “hangs
freely” on the back of the tricep (halfway from the tip of
the shoulder to the elbow).
Caliper
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FITNESSGRAM Locations (continued)
Men Women
Sum of
Skinfolds
Percent
Fat
Sum of
Skinfolds
Percent
Fat
8–10 3.2 23–25 16.8
11–13 4.1 26–28 17.7
14–46 5.0 29–31 18.5
17–19 6.0 32–34 19.4
20–22 6.0 35–37 20.2
23–25 7.8 38–40 21.0
26–28 8.7 41–43 21.9
29–31 9.7 44–46 22.7
32–34 10.6 47–49 23.5
35–37 11.5 50–52 24.4
38–40 12.5 53–55 25.2
41–43 13.4 56–58 26.1
44–46 14.3 59–61 26.9
47–49 15.2 62–64 27.7
50–52 16.2 65–67 28.6
53–55 17.1 68–70 29.4
56–58 18.0 71–73 30.2
59–61 18.9 74–76 31.1
62–64 19.9 77–79 31.9
65–67 20.8 80–82 32.7
68–70 21.7 83–85 33.6
71–73 22.6 86–88 34.4
74–76 23.6 89–91 35.5
77–79 24.5 92–94 36.1
80–82 25.4 95–97 36.9
83–85 26.4 98–100 37.8
86–88 27.3 101–103 38.6
89–91 28.2 104–106 39.4
92–94 29.1 107–109 40.3
95–97 30.1 110–112 41.1
98–100 31.0 113–115 42.0
101–103 31.9 116–118 42.8
104–106 32.8 119–121 43.6
107–109 33.8 122–124 44.5
110–112 34.7 125–127 45.3
113–115 35.6 128–130 46.1
116–118 36.6 131–133 47.0
119–121 37.5 134–136 47.8
122–124 38.4 137–139 48.7
125–127 39.3 140–142 49.5
Chart 1 Percent Fat for Sum of Triceps, Abdominal,
and Calf Skinfolds (Fitnessgram)
(Healthy) (At Risk)
Too Low Borderline Good Fitness Marginal Overfat
Below Essential
Fat Levels
Unhealthy for
Many People
Optimal for
Good Health
Associated with
Some Health Problems
Unhealthy
Males No less than 5% 6–9% 10–20% 21–25% >25%
Females No less than 10% 11–16% 17–28% 29–35% >35%
Chart 2 Standards for Body Fatness (Percent Body Fat)
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Jackson-Pollock Locations (Men)
Chest
Make a mark above
and to the right of the
right nipple (one-half
the distance from
the midline of the
side and the nipple).
The measurement at
this location is often
done on the diagonal
because of the natu-
ral line of the skin.
Abdominal
Make a mark on the skin approximately 1 inch to the right
of the navel. Make a vertical measure for the Jackson-
Pollock method and horizontally for the FITNESSGRAM
method.
Thigh
Same as for women.
Note: Research has identified other methods that can
also be used to calculate body fatness using skinfold
measurements. See below.
• Ball, S., Altena, T., and P. Swan. 2004. Accuracy of
anthropometry compared to dual energy x-ray absorp-
tiometry: A new generalizable equation for men. Euro-
pean Journal of Clinical Nutrition 58:1525–1531.
• Ball, S., Swan, P., and R. Desimone. 2004. Compari-
son of anthropometry compared to dual energy x-ray
absorptiometry: A new generalizable equation for
women. Research Quarterly for Exercise and Sports
75:248–258.
Calculating Fatness from Skinfolds
(Jackson-Pollock Method)
1. Sum three skinfolds (tricep, iliac crest, and thigh
for women; chest, abdominal [vertical], and thigh
for men).
2. Use the skinfold sum and your age to determine
your percent fat using Chart 3 for women and
Chart 4 for men. Locate your sum of skinfold in the
left column and your age at the top of the chart.
Your estimated body fat percentage is located
where the values intersect.
3. Use the Standards for Body Fatness ( Chart 2 ) to
determine your fatness rating.
Jackson-Pollock Locations (Women)
Triceps
Same as FITNESSGRAM (see page 305).
Iliac crest
Make a mark at the top
front of the iliac crest.
This skinfold is taken
diagonally because of
the natural line of the
skin.
Thigh
Make a mark on the
front of the thigh mid-
way between the hip
and the knee. Make the
measurement vertically
at this location.
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Age to the Last Year
Sum of Skinfolds
(mm)
22 and
Under
23 to
27
28 to
32
33 to
37
38 to
42
43 to
47
48 to
52
53 to
57
Over
57
23–25 9.7 9.9 10.2 10.4 10.7 10.9 11.2 11.4 11.7
26–28 11.0 11.2 11.5 11.7 12.0 12.3 12.5 12.7 13.0
29–31 12.3 12.5 12.8 13.0 13.3 13.5 13.8 14.0 14.3
32–34 13.6 13.8 14.0 14.3 14.5 14.8 15.0 15.3 15.5
35–37 14.8 15.0 15.3 15.5 15.8 16.0 16.3 16.5 16.8
38–40 16.0 16.3 16.5 16.7 17.0 17.2 17.5 17.7 18.0
41–43 17.2 17.4 17.7 17.9 18.2 18.4 18.7 18.9 19.2
44–46 18.3 18.6 18.8 19.1 19.3 19.6 19.8 20.1 20.3
47–49 19.5 19.7 20.0 20.2 20.5 20.7 21.0 21.2 21.5
50–52 20.6 20.8 21.1 21.3 21.6 21.8 22.1 22.3 22.6
53–55 21.7 21.9 22.1 22.4 22.6 22.9 23.1 23.4 23.6
56–58 22.7 23.0 23.2 23.4 23.7 23.9 24.2 24.4 24.7
59–61 23.7 24.0 24.2 24.5 24.7 25.0 25.2 25.5 25.7
62–64 24.7 25.0 25.2 25.5 25.7 26.0 26.2 26.4 26.7
65–67 25.7 25.9 26.2 26.4 26.7 26.9 27.2 27.4 27.7
68–70 26.6 26.9 27.1 27.4 27.6 27.9 28.1 28.4 28.6
71–73 27.5 27.8 28.0 28.3 28.5 28.8 28.0 29.3 29.5
74–76 28.4 28.7 28.9 29.2 29.4 29.7 29.9 30.2 30.4
77–79 29.3 29.5 29.8 30.0 30.3 30.5 30.8 31.0 31.3
80–82 30.1 30.4 30.6 30.9 31.1 31.4 31.6 31.9 32.1
83–85 30.9 31.2 31.4 31.7 31.9 32.2 32.4 32.7 32.9
86–88 31.7 32.0 32.2 32.5 32.7 32.9 33.2 33.4 33.7
89–91 32.5 32.7 33.0 33.2 33.5 33.7 33.9 34.2 34.4
92–94 33.2 33.4 33.7 33.9 34.2 34.4 34.7 34.9 35.2
95–97 33.9 34.1 34.4 34.6 34.9 35.1 35.4 35.6 35.9
98–100 34.6 34.8 35.21 35.3 35.5 35.8 36.0 36.3 36.5
101–103 35.3 35.4 35.7 35.9 36.2 36.4 36.7 36.9 37.2
104–106 35.8 36.1 36.3 36.6 36.8 37.1 37.3 37.5 37.8
107–109 36.4 36.7 36.9 37.1 37.4 37.6 37.9 38.1 38.4
110–112 37.0 37.2 37.5 37.7 38.0 38.2 38.5 38.7 38.9
113–115 37.5 37.8 38.0 38.2 38.5 38.7 39.0 39.2 39.5
116–118 38.0 38.3 38.5 38.8 39.0 39.3 39.5 39.7 40.0
119–121 38.5 38.7 39.0 39.2 39.5 39.7 40.0 40.2 40.5
122–124 39.0 39.2 39.4 39.7 39.9 40.2 40.4 40.7 40.9
125–127 39.4 39.6 39.9 40.1 40.4 40.6 40.9 41.1 41.4
128–130 39.8 40.0 40.3 40.5 40.8 41.0 41.3 41.5 41.8
Source: Baumgartner and Jackson.
Note: Percent fat calculated by the formula by Siri. Percent fat = [(4.95/BD) – 4.5] × 100, where BD = body density.
Chart 3 Percent Fat for Women (Jackson-Pollock: Sum of Triceps, Iliac Crest, and Thigh Skinfolds)
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309
the triceps measure, use the self-measurement
technique for men and women. (See page 306.)
2. Calculate fatness using the methods described
previously.
Calculating Fatness from
Self-Measured Skinfolds
1. Use either the Jackson-Pollock or Fitnessgram
method, but make the measures on yourself rather
than have a partner do the measures. When doing
Chart 4 Percent Fat for Men (Jackson-Pollock: Sum of Thigh, Chest, and Abdominal Skinfolds)
Age to the Last Year
Sum of Skinfolds
(mm)
22 and
Under
23 to
27
28 to
32
33 to
37
38 to
42
43 to
47
48 to
52
53 to
57
Over
57
8–10 1.3 1.8 2.3 2.9 3.4 3.9 4.5 5.0 5.5
11–13 2.2 2.8 3.3 3.9 4.4 4.9 5.5 6.0 6.5
14–16 3.2 3.8 4.3 4.8 5.4 5.9 6.4 7.0 7.5
17–19 4.2 4.7 5.3 5.8 6.3 6.9 7.4 8.0 8.5
20–22 5.1 5.7 6.2 6.8 7.3 7.9 8.4 8.9 9.5
23–25 6.1 6.6 7.2 7.7 8.3 8.8 9.4 9.9 10.5
26–28 7.0 7.6 8.1 8.7 9.2 9.8 10.3 10.9 11.4
29–31 8.0 8.5 9.1 9.6 10.2 10.7 11.3 11.8 12.4
32–34 8.9 9.4 10.0 10.5 11.1 11.6 12.2 12.8 13.3
35–37 9.8 10.4 10.9 11.5 12.0 12.6 13.1 13.7 14.3
38–40 10.7 11.3 11.8 12.4 12.9 13.5 14.1 14.6 15.2
41–43 11.6 12.2 12.7 13.3 13.8 14.4 15.0 15.5 16.1
44–46 12.5 13.1 13.6 14.2 14.7 15.3 15.9 16.4 17.0
47–49 13.4 13.9 14.5 15.1 15.6 16.2 16.8 17.3 17.9
50–52 14.3 14.8 15.4 15.9 16.5 17.1 17.6 18.1 18.8
53–55 15.1 15.7 16.2 16.8 17.4 17.9 18.5 18.2 19.7
56–58 16.0 16.5 17.1 17.7 18.2 18.8 19.4 20.0 20.5
59–61 16.9 17.4 17.9 18.5 19.1 19.7 20.2 20.8 21.4
62–64 17.6 18.2 18.8 19.4 19.9 20.5 21.1 21.7 22.2
65–67 18.5 19.0 19.6 20.2 20.8 21.3 21.9 22.5 23.1
68–70 19.3 19.9 20.4 21.0 21.6 22.2 22.7 23.3 23.9
71–73 20.1 20.7 21.2 21.8 22.4 23.0 23.6 24.1 24.7
74–76 20.9 21.5 22.0 22.6 23.2 23.8 24.4 25.0 25.5
77–79 21.7 22.2 22.8 23.4 24.0 24.6 25.2 25.8 26.3
80–82 22.4 23.0 23.6 24.2 24.8 25.4 25.9 26.5 27.1
83–85 23.2 23.8 24.4 25.0 25.5 26.1 26.7 27.3 27.9
86–88 24.0 24.5 25.1 25.5 26.3 26.9 27.5 28.1 28.7
89–91 24.7 25.3 25.9 25.7 27.1 27.6 28.2 28.8 29.4
92–94 25.4 26.0 26.6 27.2 27.8 28.4 29.0 29.6 30.2
95–97 26.1 26.7 27.3 27.9 28.5 29.1 29.7 30.3 30.9
98–100 26.9 27.4 28.0 28.6 29.2 29.8 30.4 31.0 31.6
101–103 27.5 28.1 28.7 29.3 29.9 30.5 31.1 31.7 32.3
104–106 28.2 28.8 29.4 30.0 30.6 31.2 31.8 32.4 33.0
107–109 28.9 29.5 30.1 30.7 31.3 31.9 32.5 33.1 33.7
110–112 29.6 30.2 30.8 31.4 32.0 32.6 33.2 33.8 34.4
113–115 30.2 30.8 31.4 32.0 32.6 33.2 33.8 34.5 35.1
116–118 30.9 31.5 32.1 32.7 33.3 33.9 34.5 35.1 35.7
119–121 31.5 32.1 32.7 33.3 33.9 34.5 35.1 35.7 36.4
122–124 32.1 32.7 33.3 33.9 34.5 35.1 35.8 36.4 37.0
125–127 32.7 33.3 33.9 34.5 35.1 35.8 36.4 37.0 37.6
Source: Baumgartner and Jackson.
Note: Percent fat calculated by the formula by Siri. Percent fat = [(4.95/BD) – 4.5] × 100, where BD = body density.
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Height-Weight Measurements
1. Height —Measure your height in inches or centime-
ters. Take the measurement without shoes, but add
2.5 centimeters or 1 inch to measurements, as the
charts include heel height.
2. Weight —Measure your weight in pounds or kilograms
without clothes. Add 3 pounds or 1.4 kilograms
because the charts include the weight of clothes. If
weight must be taken with clothes on, wear indoor
clothing that weighs 3 pounds, or 1.4 kilograms.
3. Determine your frame size using the elbow breadth.
The measurement is most accurate when done with
a broad-based sliding caliper. However, it can be
done using skinfold calipers or can be estimated
with a metric ruler. The right arm is measured when
it is elevated with the elbow bent at 90 degrees
and the upper arm horizontal. The back of the hand
should face the person making the measurement.
Using the calipers, measure the distance between
the epicondyles of the humerus (inside and outside
bony points of the elbow). Measure to the nearest
millimeter (1/10 centimeter). If a caliper is not avail-
able, place the thumb and the index finger of the
left hand on the epicondyles of the humerus and
measure the distance between the fingers with a
metric ruler. Use your height and elbow breadth in
centimeters to determine your frame size ( Chart 5 );
you need not repeat this procedure each time you
use a height and weight chart.
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Chart 5 Frame Size Determined from Elbow
Breadth (mm)
Elbow Breadth (mm)
Height
Small
Frame
Medium
Frame
Large
Frame
Males
5’2 1/2” or
less
<64 64–72 >72
5´3˝–5´6 ½˝ <67 67–74 >74
5´7˝–5´10 ½˝ <69 69–76 >76
5´11˝–6´2 ½˝ <71 71–78 >78
6´3˝ or more <74 74–81 >81
Females
4´10 ½˝ or less <56 56–64 >64
4´11˝–5´2 ½˝ <58 58–65 >65
5´3˝–5´6 ½˝ <59 59–66 >66
5´7˝–5´10 ½˝ <61 61–68 >69
5´11˝ or more <62 62–69 >69
Source: Metropolitan Life Insurance Company.
Height is given including 1-inch heels.
Chart 6 Healthy Weight Ranges for Adult Women
and Men
Height Height
Feet Inches Pounds Feet Inches Pounds
4 10 91–119 5 9 129–169
4 11 94–124 5 10 132–174
5 0 97–128 5 11 136–179
5 1 101–132 6 0 140–184
5 2 104–137 6 1 144–189
5 3 107–141 6 2 148–195
5 4 111–146 6 3 152–200
5 5 114–150 6 4 156–205
5 6 118–155 6 5 160–211
5 7 121–160 6 6 164–216
5 8 125–164
Source: U.S. Department of Agriculture and Department of Health and
Human Services.
4. Use Chart 6 to determine your healthy weight range.
The new healthy weight range charts do not account
for frame size. However, you may want to consider
frame size when determining a personal weight
within the healthy weight range. People with a larger
frame size typically can carry more weight within the
range than can those with a smaller frame size.
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311
Formula
Determining the Waist-to-Hip Circumference Ratio
The waist-to-hip circumference ratio is recommended
as the best available index for determining risk for dis-
ease associated with fat and weight distribution. Disease
and death risk are associated with abdominal and upper
body fatness. When a person has high fatness and a high
waist-to-hip ratio, additional risks exist. The following
steps should be taken in making measurements and cal-
culating the waist-to-hip ratio.
1. Both measurements should be done with a nonelas-
tic tape. Make the measurements while standing with
the feet together and the arms at the sides, elevated
only high enough to allow the measurements. Be
sure the tape is horizontal and around the entire cir-
cumference. Record scores to the nearest millimeter
or 1/16th of an inch. Use the same units of measure
for both circumferences (millimeters or 1/16th of an
inch). The tape should be pulled snugly but not to
the point of causing an indentation in the skin.
BMI =
weight in kilograms (kg)
(height in meters) × (height in meters)
BMI =
weight in pounds (lb)
(height in inches) × (height in inches)
Body Mass Index (BMI)
Use the steps listed below or use Chart 7 to calculate
your BMI.
1. Divide your weight in pounds by 2.2 to determine
your weight in kilograms.
2. Multiply your height in inches by 0.0254 to deter-
mine your height in meters.
3. Square your height in meters (multiply your height in
meters by your height in meters).
4. Divide your weight in kilograms from step 1 by your
height in meters squared from step 3.
5. If you use these steps to determine your BMI, use
the Rating Scale for Body Mass Index ( Chart 8 ) to
obtain a rating for your BMI.
Chart 7 Body Mass Index (BMI)
5’0″
5’1″
5’2″
5’3″
5’4″
5’5″
5’6″
5’7″
5’8″
5’9″
5’10”
5’11”
6’0″
6’1″
6’2″
6’3″
6’4″
H
ei
gh
t
Weight
20 21 21 22
23 24
19 20 21 22 23 24
18 19 20 21 22 23
18
17
17
16
16
15
16
16
15 16 16
14 15
15
16
14
14 14
13 14
15 16
15 16 16
1515 16 16
13 13 1514 15
12 13
12 13 13
1414 15
14 15
16
16 16
15 16 16
17
17
17 17
17
17
17
17
17
17
17
17
17
17
17
17
19 19 20 21 22
24
18 19 20 21 21 22 23 24
17 18 19
18 19
18 19
19
20 21 22 22 23 24
20
20 20
21 22 23 23 24
21
18
18 18
19 20 21 21
22 23 23 24
22 23 24 24
19
18 19
18 19
20
18 18 19 20
21
19 20
20
21
21 22
22
23 24 24
22 23 24 24
20 21 22 22 23 24 24
20 21 22 22 23 24 24
18 18 19
18 19 19
20 20 21
20 21 21
22 22 23 24 24
22 22 23 24 24
18
18
19 19 20 21 21 22 22 23 24 24
18 19 19 20 21 21 22 23 23 24 24
25 26
25 26
27 28 29 30 31 32
33 34 35
31 32
33
32
3232
33
34 35
33 34
35
35
36 37
34 35 36 37
31 32 33 34 35 36 37 37
38 39
3936 37 38 39
33 34 35 36
3636
3737 38 39
37 38
3838
39
40 41 42 43
36 37 38 39 40 41
41
41
42 43 43
44 45
38 39 40 41 42 43 44 45
46
31 32 33 34 35 36 37 38 39 40 41 42 43 43 44 45 46
47 48 49
26 27
28 29
25 26 27 27 28 29
30
30
25 26 27 27
28 29 30
25 26 27 27 28 29
30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
28 29 30
25 26 27 27 28 29
25 26
25
25
25
25
25
25
26 26
27 27 28 29
30
30 30
29 30
27 28
26 26 27 28
28 29 30 3026 26 27 28
28 29 30 3026 26 27 28
28 2929 3026 26 27 27
28 2929 30 30
3131
31
31
31 31
31 32
32
32
32 33
3333 34
31
31
31
31
3131
31
31
31
31 32
3232
3232
33
33
33 34
3434
33
32
32
31 32
33
34
35
35
35
33 34
33 34
35
33 34 35
35
36
36 37
3636 37 38
4040
40
40
42
42 43
44
46
47
39
26 26 27 27
100 105 110 115 120 125 130 135 140 145 150 155 160 165 170 175 180 185 190 195 200 205 230 240235 245 250210 215 220 225
29 29 30
23 24
5’0″
5’1″
5’2″
5’3″
5’4″
5’5″
5’6″
5’7″
5’8″
5’9″
5’10”
5’11”
6’0″
6’1″
6’2″
6’3″
6’4″
20 21 21 22 23 24
19 20 21 22 23 24
18 19 20 21 22 23
18
17
17
16
16
15
16
16
15 16 16
Low
14 15
15
16
14
14 14
13 14
15 16
15 16 16
1515 16 16
13 13 1514 15
12 13
12 13 13
1414 15
14 15
16
16 16
15 16 16
17
17
17 17
17
17
17
17
17
17
17
17
17
Normal
(good fitness zone)
17
17
17
19 19 20 21 22
24
18 19 20 21 21 22 23 24
17 18 19
18 19
18 19
19
20 21 22 22 23 24
20
20 20
21 22 23 23 24
21
18
18 18
19 20 21 21
22 23 23 24
22 23 24 24
19
18 19
18 19
20
18 18 19 20
21
19 20
20
21
21 22
22
23 24 24
22 23 24 24
20 21 22 22 23 24 24
20 21 22 22 23 24 24
18 18 19
18 19 19
20 20 21
20 21 21
22 22 23 24 24
22 22 23 24 24
18
18
19 19 20 21 21 22 22 23 24 24
18 19 19 20 21 21 22 23 23 24 24
25 26
25 26
27 28 29 30 31 32 33 34 35
31 32 33
32
3232
33
34 35
33 34 35
35
36 37
34 35 36 37
31 32 33 34 35 36 37 37
38 39
3936 37 38 39
33 34 35 36
3636
3737 38 39
37 38
3838
39
40 41 42 43
36 37 38 39 40 41
41
41
42 43 43
44 45
38 39 40 41 42 43 44 45
46
31 32 33 34 35 36 37 38 39 40 41 42 43 43 44 45 46
47 48 49
26 27 28 29
25 26 27 27 28 29
30
30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
25 26 27 27 28 29 30
28 29 30
25 26 27 27 28 29
25 26
25
25
25
25
25
25
26 26
27 27 28 29
30
30 30
29 30
27 28
26 26 27 28
28 29 30 3026 26 27 28
28 29
Obese
3026 26 27
Overweight
28 2929 3026 26 27 27
28 2929 30 30
3131
31
31
31 31
31 32
32
32
32 33
3333 34
31
31
31
31
3131
31
31
31
31 32
3232
3232
33
33
33 34
3434
33
32
32
31 32
33
34
35
35
35
33 34
33 34
35
33 34 35
35
36
36 37
3636 37 38
4040
40
40
42
42 43
44
46
47
39
26 26 27 27
100 105 110 115 120 125 130 135 140 145 150 155 160 165 170 175 180 185 190 195 200 205 230 240235 245 250210 215 220 225
29 29 30
23 24
Chart 8 Rating Scale for Body Mass Index (BMI)
Classification
BMI
Obese (high risk) Over 30
Overweight 25–30
Normal (good fitness zone) 17–24.9
Low Less than 17
Note: An excessively low BMI is not desirable. Low BMI values can indi-
cate eating disorders and other health problems.
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Note: Using a partner or mirror will aid you in keeping the
tape horizontal.
Determining Disease Risk Based
on BMI and Waist Circumference
Use Chart 11 to determine a BMI and Waist Circumfer-
ence Rating. In the first column of Chart 11 , locate your
BMI. Locate your Waist Circumference in either column 2
or 3 depending on your age. Your rating is located at the
point where the appropriate rows and columns intersect.
2. Waist measurement —Measure at the natural waist
(smallest waist circumference). If no natural waist
exists, the measurement should be made at the
level of the umbilicus. Measure at the end of a nor-
mal inhale.
3. Hip measurement —Measure at the maximum cir-
cumference of the buttocks. It is recommended that
you wear thin-layered clothing (such as a swimming
suit or underwear) that will not add significantly to
the measurement.
4. Divide the hip measurement into the waist measure-
ment or use the waist-to-hip nomogram ( Chart 9 ) to
determine your waist-to-hip ratio.
5. Use the Waist-to-Hip Ratio Rating Scale ( Chart 10 )
to determine your rating for the waist-to-hip ratio.
Chart 9 Waist-to-Hip Ratio Nomogram
Chart 10 Waist-to-Hip Ratio Rating Scale
Classification Men Women
High risk >1.0 >0.85
Moderately high risk 0.90–1.0 0.80–0.85
Lower risk <0.90 <0.80
Chart 11 BMI and Waist Circumference Rating Scale
Waist Circumference (in.)
BMI
Men 40 or less
Women 34.5 or
less
Men above 40
Women above
34.5
Less than 18.5 Normal Normal
18.5–24.9 Normal Normal
25.0–29.9 Increased risk High risk
30.0–34.9 High risk Very high risk
35.0–39.9 Very high risk Very high risk
40 or more Extremely high risk Extremely high risk
Source: Adapted from ACSM.
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Lab 13A Evaluating Body Composition: Skinfold Measures
Name Section Date
Purpose: To estimate body fatness using two skinfold procedures; to compare measures made by an expert, by a
partner, and by self-measurements; to learn the strengths and weaknesses of each technique; and to use the results
to establish personal standards for evaluating body composition
General Procedures: Follow the specifi c procedures for the two self-assessment techniques. If possible, have one
set of measurements made by an expert (instructor) for each of the two techniques. Next, work with a partner you trust.
Have the partner make measurements at each site for both techniques. Finally, make self-measurements for each of the
sites. If you are just learning a measurement technique, it is important to practice the skills of making the measurement.
If you do measurements over time, use the same instrument (if possible) each time you measure. If your measurements
vary widely, take more than one set until you get more consistent results.
If you have had an underwater weighing, a bioelectric impedance measurement, a near-infrared interactance measure,
or some other body fatness measurement done recently, record your results below.
Measurement Technique % Body Fat Rating
1.
2.
Skinfold Measurements (Jackson-Pollock Method)
Procedures for Jackson-Pollock Method
1. Read the directions for the Jackson-Pollock method measurements in Lab Resource Materials.
2. If possible, observe a demonstration of the proper procedures for measuring skinfolds at each of the different
locations before doing partner or self-measurements.
3. Make expert, partner, and self-measurements (see Lab Resource Materials). When doing the self-measure of the
triceps, use the self-measurement technique described in Lab Resource Materials (women only).
4. Record each of the measurements in the Results section.
5. Calculate your body fatness from skinfolds by summing the appropriate skinfold values (chest, thigh, and abdomi-
nal for men; triceps, iliac crest, and thigh for women). Using your age and the sum of the appropriate skinfolds,
determine your body fatness using Charts 3 and 4 in Lab Resource Materials.
6. Rate your fatness using Chart 2 in Lab Resource Materials.
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Results for Jackson-Pollock Method
Skinfolds by
an Expert (If Possible) Skinfolds by Partner Self-Measurements
Male Male Male
Chest Chest Chest
Thigh Thigh Thigh
Abdominal Abdominal Abdominal
Sum Sum Sum
% body fat % body fat % body fat
Rating Rating Rating
Female Female Female
Triceps Triceps Triceps
Iliac crest Iliac crest Iliac crest
Thigh Thigh Thigh
Sum Sum Sum
% body fat % body fat % body fat
Rating Rating Rating
Make a check by the statements that are true about your measurements.
The person doing measurements has experience with these three skinfold measurements.
Self-measurements were practiced until measurements became consistent.
Results of several trials for each measure are consistent (do not vary more than 2–3 mm).
You are not exceptionally low or exceptionally high in body fat.
The more checks you have, the more likely your measurements are accurate.
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Skinfold Measurements (FITNESSGRAM Method)
Procedures for FITNESSGRAM Method
1. Read the directions for the FITNESSGRAM measurements in Lab Resource Materials.
2. Use the procedures as for the FITNESSGRAM method using the triceps, abdominal, and calf sites described in Lab
Resource Materials. When doing the self-measure of the triceps, use the self-measurement technique shown earlier.
3. Calculate your body fatness from skinfolds by summing the appropriate skinfold values (same for both men and
women). Using the sum of the appropriate skinfolds, determine your body fatness using Chart 1 in Lab Resource
Materials.
4. Rate your fatness using Chart 2 in Lab Resource Materials.
Results for FITNESSGRAM Method
Skinfolds by
an Expert (If Possible) Skinfolds by Partner Self-Measurements
Triceps Triceps Triceps
Abdominal Abdominal Abdominal
Calf Calf Calf
Sum Sum Sum
% body fat % body fat % body fat
Rating Rating Rating
Make a check by the statements that are true about your measurements.
The person doing measurements has experience with these three skinfold measurements.
Self-measurements were practiced until measurements became consistent.
Results of several trials for each measure are consistent (do not vary more than 2 to 3 mm).
You are not exceptionally low or exceptionally high in body fat.
The more checks you have, the more likely your measurements are accurate.
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Conclusions and Implications
In the space provided below, discuss your current body composition based on the two skinfold procedures and any
other measures of body fatness you did. Note any discrepancies in the measurements and discuss which of the
measurements you think provide the most useful information. To what extent do you think you need to alter your level
of body fatness?
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Lab 13B Evaluating Body Composition: Height, Weight,
and Circumference Measures
Name Section Date
Purpose: To assess body composition using a variety of procedures, to learn the strengths and weaknesses of each
technique, and to use the results to establish personal standards for evaluating body composition
General Procedures: Follow the specifi c procedures for the three self-assessment techniques. If possible, work
with a partner you trust to help with measurements that you have diffi culty making yourself. If you are just learning
a measurement technique, it is important to practice the skills of making the measurement. If you do measurements
over time, use the same instrument (if possible) each time you measure. If your measurements vary widely, take more
than one set until you get more consistent results. If possible, have an expert make measurements on you using these
procedures.
Height and Weight Measurements
Procedures
1. Read the directions for height and weight measurements in Lab Resource Materials.
2. Determine your healthy weight range using Chart 6 in Lab Resource Materials. You may want to use your elbow
breadth (Chart 5). People with a smaller frame size should typically weigh less than those with a larger frame
size within the healthy weight range. You may need the assistance of a partner to make the elbow breadth
measurement.
3. Record your scores in the Results section.
Results
Weight Healthy weight range
Height
Make a check by the statements that are true about your measurements.
You are confident in the accuracy of the scale you used.
You are confident that the height technique is accurate.
The more checks you have, the more likely your measurements are accurate.
If you are a very active person with a high amount of muscle, use this method with caution.
Body Mass Index
Procedures
1. Use the height and weight measures from above.
2. Determine your BMI score by using Chart 7 or the directions in Lab Resource Materials. Determine your rating
using Chart 8.
3. Record your score and rating in the Results section.
Results
Body mass index Rating
If you are a very active person with a high amount of muscle, use this method with caution.
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Waist-to-Hip Ratio
Procedures
1. Measure your waist and hip circumferences using the procedures in Lab Resource Materials.
2. Divide your hip circumference into your waist circumference, or use Chart 9 in Lab Resource Materials to calculate
your waist-to-hip ratio.
3. Determine your rating using Chart 10 in Lab Resource Materials.
4. Record your scores in the Results section.
Results
Waist circumference Hip circumference Waist-to-hip ratio Rating
Make a check by the statements that are true about you.
I am a male 5´9˝ or less and have a waist girth of 34 inches or more.
I am a male 5´10˝ to 6´4˝ and have a waist girth of 36 inches or more.
I am a male 6´5˝ or more and have a waist girth of 38 inches or more.
I am a female 5´2˝ or less and have a waist girth of 29 inches or more.
I am a female 5´3˝ to 5´10˝ and have a waist girth of 31 inches or more.
I am a female 5´11˝ or more and have a waist girth of 33 inches or more.
If you checked one of the boxes above, the waist-to-hip ratio is especially relevant for you.
BMI and Waist Circumference Rating
Procedures
1. Locate your BMI and Waist Circumference from previous Results sections in this Lab.
2. Use these values to calculate your BMI and Waist Circumference Rating using Chart 11. Record the rating
in the Results section.
Results
BMI and Waist Circumference Rating
Conclusions and Implications
In the space below, discuss your results for the height, weight, and circumference procedures. Note any discrepancies
in the measurements. Indicate the strengths and weaknesses of the various methods. Which of the measures do you
think provided you with the most useful information? If you also did the skinfold measures (Lab 13A), discuss your body
composition based on all the information you have collected (skinfolds and height, weight, and circumference measures).
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Lab 13C Determining Your Daily Energy Expenditure
Name Section Date
Purpose: To learn how many calories you expend in a day
Procedures
1. Estimate your basal metabolism using step 1 in the Results section in this Lab. First determine the number of
minutes you sleep.
2. Monitor your activity expenditure for 1 day using Chart 1 (page 321). Record the number of 5-, 15-, and 30-minute
blocks of time you perform each of the different types of physical activities (e.g., if an activity lasted 20 minutes,
you would use one 15-minute block and one 5-minute block). Be sure to distinguish between moderate (Mod) and
vigorous (Vig) intensity in your logging. If you perform an activity that is not listed, specify the activity on the line
labeled “Other” and estimate if it is moderate or vigorous. You may want to keep copies of Chart 1 for future use.
One extra copy is provided on page 322.
3. Sum the total number of minutes of moderate and vigorous activity. Determine your calories expended during mod-
erate and vigorous activity using steps 2 and 3.
4. Determine your nonactive minutes using step 4. This is all time that is not spent sleeping or being active.
5. Determine your calories expended in nonactive minutes using step 5.
6. Determine your calories expended in a day using step 6.
Results
Daily Caloric Expenditure Estimates
Step 1:
Basal calories
Body wt. (lbs.) Minutes of sleep Basal calories
= .0076 × × = (A)
Step 2:
Calories
(moderate activity)
Body wt. (lbs.)
Minutes of moderate
activity
Calories in moderate
activity
= .036 × × = (B)
Step 3:
Calories
(vigorous activity)
Body wt. (lbs.) Minutes of vigorous
activity
Calories in vigorous
activity
= .053 × × = (C)
Step 4:
Minutes
(nonactive)
Minutes of
sleep
Minutes of moderate
activity
Minutes of
vigorous activity
= 1,440 min – – – =
Nonactive minutes
Step 6:
Calories expended
(per day)
(A) (B) (C)
= =+ ++
(D) Daily calories
Step 5:
Calories
(rest and light activity)
Body wt. (lbs.) Nonactive minutes Calories in other
activities
= .011 × × = (D)
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Answer the following questions about your daily caloric expenditure estimate.
Yes No
Were the activities you performed similar to what you normally perform each day?
Do you think your daily estimated caloric expenditure is an accurate estimate?
Do you think you expend the correct number of calories in a typical day to maintain the body
composition (body fat level) that is desirable for you?
Conclusions and Interpretations: In several paragraphs, discuss your daily caloric expenditure. Comment on
your answers to the preceding questions. In addition, comment on whether you think you should modify your daily
caloric expenditure for any reason.
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Chart 1 Daily Activity Log
Day of Monitoring:
Physical Activity Category
Lifestyle Activity
Dancing (general)
Gardening
Home repair/maintenance
Occupation
Mod
Mod
Mod
Mod
5 Minutes Minutes
Walking/hiking Mod
Other: Mod
1 62 543
15 Minutes
1 62 543
30 Minutes
1 2 3
Aerobic Activity 1 62 543 1 62 543 1 2 3
Sport/Recreation Activity 1 62 543 1 62 543 1 2 3
Flexibility Activity 1 62 543 1 62 543 1 2 3
Strengthening Activity 1 62 543 1 62 543 1 2 3
Aerobic dance (low-impact) Mod
Vig
Vig
Basketball Mod
Vig
Bowling/billiards Mod
Golf Mod
Martial arts (judo, karate) Mod
Vig
Racquetball/tennis Mod
Stretching Mod
Other: Mod
Resistance exercise Mod
Other: Mod
Minutes of moderate activity
Minutes of vigorous activity
Total minutes of activity
Calisthenics (push-ups/sit-ups) Mod
Vig
Vig
Soccer/hockey Mod
Softball/baseball Mod
Volleyball Mod
Aerobic machines
(rowing, stair, ski)
Mod
Vig
Bicycling Mod
Vig
Running Mod
Vig
Skating (roller/ice) Mod
Vig
Swimming (laps) Mod
Vig
Other: Mod
Vig
Other: Mod
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Chart 1 Daily Activity Log
Day of Monitoring:
Physical Activity Category
Lifestyle Activity
Dancing (general)
Gardening
Home repair/maintenance
Occupation
Mod
Mod
Mod
Mod
5 Minutes Minutes
Walking/hiking Mod
Other: Mod
1 62 543
15 Minutes
1 62 543
30 Minutes
1 2 3
Aerobic Activity 1 62 543 1 62 543 1 2 3
Sport/Recreation Activity 1 62 543 1 62 543 1 2 3
Flexibility Activity 1 62 543 1 62 543 1 2 3
Strengthening Activity 1 62 543 1 62 543 1 2 3
Aerobic dance (low-impact) Mod
Vig
Vig
Basketball Mod
Vig
Bowling/billiards Mod
Golf Mod
Martial arts (judo, karate) Mod
Vig
Racquetball/tennis Mod
Stretching Mod
Other: Mod
Resistance exercise Mod
Other: Mod
Minutes of moderate activity
Minutes of vigorous activity
Total minutes of activity
Calisthenics (push-ups/sit-ups) Mod
Vig
Vig
Soccer/hockey Mod
Softball/baseball Mod
Volleyball Mod
Aerobic machines
(rowing, stair, ski)
Mod
Vig
Bicycling Mod
Vig
Running Mod
Vig
Skating (roller/ice) Mod
Vig
Swimming (laps) Mod
Vig
Other: Mod
Vig
Other: Mod
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- read (2)
- read (3)
- read (4)
9780078022562_ch10_199-224_print
9780078022562_ch11_225-264_print