EHR522 Exercise For Metabolic & Renal Conditions Week 2 PDF

Summary

This document is a presentation about overweight and obesity, covering different aspects such as its prevalence in Australia, causes, consequences, and methods for assessment. It touches upon relevant factors such as the role of exercise and diet.

Full Transcript

EHR522
EXERCISE FOR METABOLIC
& RENAL CONDITIONS
WEEK 2 – OVERWEIGHT & OBESITY
PART 1

OVERWEIGHT & OBESITY
• Overweight and obesity is an epidemic associated with,
if not the principal cause of, much disease and disability
• Short-term intervention – limited effectiveness
• Long-term success – rare without ongoing medical
efforts
• Obesity – a chronic illness, often with co-morbidities
that need to be considered
• Significant weight loss has far-ranging positive health
effects

• Exercise and dietary changes are the main contributors
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OVERWEIGHT & OBESITY IN AUSTRALIA – A
GROWING PROBLEM

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OVERWEIGHT AND OBESITY
•

In Australia, per capita spending is approximately $830 more for

an obese individual versus someone of normal body weight

•

Obesity reduces life expectancy and this effect is more powerful in
those who develop obesity earlier in life

•

Obesity and sedentary lifestyle is considered the second leading
cause of preventable death in the United States and may overtake

tobacco abuse within the next decade

•

In 2016 life expectancy fell slightly for the first time, reflecting the
effects of obesity-related chronic illness on society

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OVERWEIGHT & OBESITY

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OVERWEIGHT & OBESITY

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OVERWEIGHT & OBESITY
• Overweight and Obesity – An abnormal or excessive fat
accumulation that presents a risk to health
• Body Mass Index (BMI)
− Indicates overweight for height, but does not
discriminate between fat mass and lean tissue
− Significant correlation with total body fat
− Acceptable clinical measure of overweight and obesity

− Most successful in large cohorts

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OVERWEIGHT & OBESITY

• Australia (WHO, USA, Canada and Europe):
− Overweight: 25.0 to 29.9
− Obesity: ≥ 30

• Inaccuracies in some individuals

− Is a given BMI ‘unhealthy’?
− Is body fat percentage actually elevated?

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OVERWEIGHT & OBESITY

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OVERWEIGHT & OBESITY

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OVERWEIGHT & OBESITY
• BMI thresholds vary internationally by race

• In Japan
- Overweight: 23.0 to 24.9
- Obese: ≥ 24.9

• Higher incidence of diseases associated with weight
and body fat occurring at lower BMI values in Asian
populations
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OVERWEIGHT & OBESITY
Other methods for the assessment of body composition
•

Skinfolds

•

Bioelectrical impedance

•

Water or air displacement

•

Dual-energy x-ray absorptiometry (DEXA)

Possible barriers
•

Technical skill

•

Patient cooperation

•

Time

•

Cost

•

Space
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CHILDHOOD OBESITY

• 70% of all obesity begins in adulthood

• Most obese children will carry their obesity into

adulthood

• Increasing childhood obesity is a worldwide issue

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CENTRAL ADIPOSITY
BMI > 30 carries increased health risk for obesity-related comorbidities
•

Heart disease

•

Diabetes

•

Hypertension

•

Dyslipidaemia

•

Sleep apnoea

•

Gasto-oesophageal reflux disease (GORD)

The pattern of fat distribution also affects risk.
Abdominal (central or android) obesity is more closely related to
elevated cardiometabolic risk than is gluteofemoral (gynoid or lower
body) obesity.

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CENTRAL ADIPOSITY
•

The enzyme lipoprotein lipase, which regulates the storage of fats
as triglycerides, is more active in abdominal obesity and therefore
increases fat storage

•

Central obesity can be grossly estimated by waist-to-hip ratio.
Increased health risk when

•

-

Women > 0.8

-

Men > 1.0

Alternately, just waist circumference. Increased health risk when
-

Women > 80cm

-

Men > 94cm

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VISCERAL VS. SUBCUTANEOUS ADIPOSITY

• Visceral fat – Lies deep within the body cavities,
surrounding internal organs including the liver,
pancreas and intestines.

• Visceral fat accumulation is associated with a higher
cardiometabolic risk than subcutaneous fat because
of its metabolic characteristics, which include insulin
resistance and glucose intolerance.

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VISCERAL VS. SUBCUTANEOUS ADIPOSITY

• Visceral fat is best measured by MRI, U/S or CT
• A more practical measure is sagittal diameter
− Patient lies on their back with knees bent and feet flat on the
surface

− Distance from floor/plinth to a horizontal level at anterior
abdomen at the level of the iliac crest
− Taken during a normal exhalation (tidal breathing)

• A promising technique that’s the best practical predictor of
visceral fat
• > 30cm is related to an increase cardiovascular disease risk and
insulin resistance
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PATHOPHYSIOLOGY OF OBESITY

• Obesity results from longstanding positive energy
balance.
• Average daily calorie intake has increased by over

200 kcal over the last several decades as food costs
have fallen dramatically and as more calories are
consumed outside the home.
• At the same time, physical activity has fallen because
of advances in equipment and ergonomics in the
workplace.
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PATHOPHYSIOLOGY OF OBESITY
• Recent research has identified an ever-increasing
number of genetic and physiologic factors pointing to
a large array of neurological and peripheral endocrine
messengers that influence food intake and nutrient
utilisation and that regulate weight in a way that
often frustrates patients’ weight loss efforts.

• Advanced neuroimaging research has recently shown
similar patterns of brain activation between
addictive-like eating and substance abuse.

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PATHOPHYSIOLOGY OF OBESITY

• Leptin is secreted by fat cells
• Humans produce leptin in proportion to their weight
and girth

• Exogenous leptin administration has limited benefit
for weight reduction except in the rarest of cases of
human obesity because of a genetic absence of this
fat cell hormone.

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PATHOPHYSIOLOGY OF OBESITY
• Genetic causes of obesity are a feature of rare disorders such

as Prader-Willi syndrome, but are thought to be a factor in at
least half of human obesity based on studies of twins raised
separately or children who were adopted

• Body fat distribution is also genetically determined and gender
specific, and predictable changes throughout life may
confound patients’ efforts at weight control

• Increasing age reduces growth hormone and gonadal hormone
secretion, which may predispose to greater visceral fat storage
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PATHOPHYSIOLOGY OF OBESITY
• Set-Point Theory
- Weight loss decreases total and resting energy expenditure,
which slows further weight loss
- Weight gain through overfeeding is associated with an
increase in energy expenditure, which slows further weight
gain
- After weight loss, individuals require 15% fewer calories to
maintain their lower weight
- This tendency causes weight loss patients to return to higher
weights unless they restrict calories over the long term or
expend calories through greater physical activity
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PATHOPHYSIOLOGY OF OBESITY
• Efforts to augment energy expenditure through
medications have been complicated by adverse
effects of increased blood pressure and heart rate
• This area will remain a target for ongoing

pharmaceutical research because resting metabolic
activity accounts for about 70% of energy
expenditure

• The metabolic cost of food digestion accounts for
about 10% of energy expenditure. The remainder is
physical activity
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PATHOPHYSIOLOGY OF OBESITY
• An interesting observation in patients following gastric bypass
weight loss surgery is the dramatic reduction in ghrelin, a
potent appetite-increasing gut hormone, which may explain, in
part, the success of this surgical procedure
• Ghrelin, produced as the stomach empties, triggers the central
nervous system appetite stimulant neuropeptide Y (NPY),
growth hormone and norepinephrine

• Neuropeptide Y and norepinephrine predominantly stimulate
carbohydrate intake.
• Weight loss can increase serum ghrelin levels, which may
explain part of the process that makes sustaining weight loss
difficult
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PATHOPHYSIOLOGY OF OBESITY
• Cholecystokinin, serotonin and peptide YY are among a group
of central nervous system and gut peptides involved in satiety
and reduced food intake
• Serotonin has been targeted in the treatment of depression
with selective serotonin reuptake inhibitors such as fluoxetine,
but these medications have had limited effect in weight loss
treatment
• Nutrient selection during weight loss treatment may be a
factor because appetite-reducing peptide YY is increased
during high protein diets. This may partially explain the

appetite-reducing effect of high protein diets

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CLINICAL CONSIDERATIONS IN OVERWEIGHT & OBESITY
• Although medically significant obesity exists in most patients
who seek medical care, only a minority present requesting
medical help with weight reduction
• Compassion and understanding coupled with flexible and
practical weight loss recommendations are essential to
building rapport with obese patients
• Most individuals seeking professional help with weight loss

have a BMI of 38 or more, and invariably they have attempted
to lose weight several times in the past
• Proper assessment of the barriers to, and benefits of, weight
loss should be the initial step in the clinical evaluation of the
obese patient

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CLINICAL CONSIDERATIONS IN OVERWEIGHT & OBESITY

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CLINICAL CONSIDERATIONS IN OVERWEIGHT & OBESITY

• Establishing where the patient is located on the
Stages of Change Model can be useful in helping
to approach and commence your treatment plan

• One of the major barriers is that obesity and its
common comorbidities are often silent

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CLINICAL CONSIDERATIONS IN OVERWEIGHT & OBESITY
Medical causes of obesity, including illnesses, medications and lifestyle changes
known to increase weight, should be identified
− Diabetes mellitus
− Polycystic ovarian syndrome (PCOS)
− Cushing’s syndrome
− Many medications (neuroleptics, psychotropics, anticonvulsants,
hypoglycaemic agents, B-blockers, ACE-inhibitors and hormone therapies)
− Smoking cessation
− Job changes
− Injuries
− Sleep habits

− Life stressors
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CLINICAL CONSIDERATIONS IN OVERWEIGHT & OBESITY

• History of obesity should be obtained where possible,
including
– Age of onset of obesity
– Weight gain since adolescence
– Changes in weight distribution
– Peak and lowest maintained adult weight
– Any history of weight loss, be it intentional or not
– Methods used to lose weight

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CLINICAL CONSIDERATIONS IN OVERWEIGHT & OBESITY
• An exercise history should identify current
intentional exercise or opportunities for increased
lifestyle activities, evaluate any exercise barriers and

patient-specific benefits to help in the assessment of
any contraindications to moderate or vigorous
exercise, and develop a comprehensive exercise plan.

• Exercise testing may be appropriate for the

assessment of cardiovascular disease or to explain
dyspnoea on exertion, which is common in obese
patients
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… PART 2

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