exercise therapy for chronic diseases instructor: michael c. riddell, ph.d. 347 bethune college...
TRANSCRIPT
Exercise Therapy for Chronic Diseases
Instructor: Michael C. Riddell, Ph.D.
347 Bethune College (office)
AS/SC KINE 4900 3.0
Why Do We Care?
Canadian Fitness and Lifestyle Research Institute's Physical Activity Monitor
Physical Activity Statistics: 1986–2002 No Leisure-Time Physical Activity Trend Chart
Why Do we Care?
Disease RR PAR (%)
CHD 1.9 36
Stroke 1.4 20
Hypertension 1.4 20
Colon Cancer 1.4 20
Breast Cancer 1.2 11
Type 2 Diabetes 1.4 20
Osteoporosis 1.6 27
Relative Risks and Population Attributable Risks for Physical Inactivity
Katzmarzyk et al. CMAJ 2000;63:435-1440
Cost Due ToDisease Cost Inactivity
CHD 2.5 0.9Stroke 1.7 0.3
Hypertension 1.6 0.3
Colon Cancer 0.3 0.07
Breast Cancer 0.3 0.03
Type 2 Diabetes 0.6 0.1
Osteoporosis 1.3 0.4
TOTAL 2.1
Figures are $ billions.
Economic Costs of Physical Inactivity
Katzmarzyk et al. CMAJ 2000;63:435-1440
Physical Inactivity-Related Mortality
N Deaths Disease N Deaths Due to InactivityCHD 44 061 15 774Stroke 15 517 3 088Colon Cancer 4 237 843Breast Cancer 4 923 542Diabetes 5 492 1 093All Causes 207 408 21 340 (10.3%)
Katzmarzyk et al. CMAJ 2000;63:435-1440
• The cost estimates are direct costs:• hospital services • physician care• drugs• health research
• The indirect costs are larger:• time off work• loss of productivity
10% Change in Inactivity
• Reducing levels of physical inactivity from 62% to 56% would result in $150
million a year in savings
Katzmarzyk et al. CMAJ 2000;63:435-1440
What Can Exercise Do?Regular physical activity can improve health and reduce the risk of premature death in the
following ways: • Reduces the risk of developing coronary heart disease (CHD) and the risk of dying from
CHD • Reduces the risk of stroke • Reduces the risk of having a second heart attack in people who have already had one
heart attack • Lowers both total blood cholesterol and triglycerides and increases high-density
lipoproteins (HDL or the "good" cholesterol) • Lowers the risk of developing high blood pressure • Helps reduce blood pressure in people who already have hypertension • Lowers the risk of developing non-insulin-dependent (type 2) diabetes mellitus • Reduces the risk of developing colon cancer • Helps people achieve and maintain a healthy body weight • Reduces feelings of depression and anxiety • Promotes psychological well-being and reduces feelings of stress • Helps build and maintain healthy bones, muscles, and joints • Helps older adults become stronger and better able to move about without falling or
becoming excessively fatigued
“So, You Should Get More Exercise”
• Like saying “you should take some pills”.• What is it about your condition that makes
exercise valuable?• What kind of exercise?• What type of apparatus?• For how long?• At what intensity?• What are the risks?• What are the expected benefits?
Why This Course?
• There is a growing interest in the use of exercise for individuals with chronic disease
• This course provides the basic principles for exercise testing and exercise training (or programming) for these unique individuals.
• Advanced clinical exercise physiology jobs?
Ground rules
• Class participation is encouraged• The only dumb questions are the ones you don’t ask• From time to time you may be called upon to comment
on …– “What is the most important thing you learned in this lecture?”– “What portion of the ‘lecture’ was most confusing?”– “What question remains uppermost in your mind?”
• It would be nice if you got involved by…– Bringing in newspaper clippings or journal articles to generate
discussion in class– Visiting a cardiac rehab clinic and report back– Performing the “in class” group work
Limited
Exercise
Deconditioning
intolerance
activity
Disease process
Endurancetraining
Can you explain this figure by using an example?
Core Components
We will attempt to:
1. Find and discuss clinical conditions that tend to have altered physiological responses to exercise
2. Provide strategies for exercise testing
3. Evaluate the typical exercise response
4. Develop and illustrate rationales for exercise programming
• functional capacity• reduce disease severity
Why Exercise Testing?Sample Case Study
“58-year old man had been exposed to asbestos, sandblasting, and 35 years of cigarettes. He was not overweight and had no apparent disease.
On questioning, he admitted to grinding chest pain, originating in the midback and radiating around the left chest into the substernal area.
The pain, brought on when walking especially on cold days and was relieved in a few minutes by rest.
He denied shortness of breath. He had no abnormal heart sounds and resting ECG was normal”
Sample Case Study
• Does this man have a disease that may be related to physical activity?
• Can exercise testing be useful to help determine the disease or the severity of the disease?
• Does physical inactivity contribute to the disease?
• Is exercise training (programming) useful as a form of treatment for this disease?
Historical Perspective
• A. Lavoissier (1784)- determined the energy cost of one legged exercise (respiratory exchange).
• Medically supervised exercise regimes introduced in the 1940s and 50s for war injuries and polio patients
• Now expanded to stroke, cardiac, pulmonary and metabolic patients.
Historical Perspective Cont’
• Approximately 99% of all exercise physiology research has been published since 1960.
• Today- large number of medical rehabilitation facilities, health clubs, fitness centers, as well as sports medicine disciplines.– Toronto Rehab
– Rouge Valley Health System
– The Cardiac Prevention and Rehabilitation CentreSt. Michael's Hospital
– Cardiac Wellness and Rehabilitation Centre Trillium Health Centre
• http://www.cardiacrehabilitation.ca/rehab_centres.php
Link Between Research and Practice
• Objective data are available on the therapeutic role of exercise
• research vs practice
• The link is between the two is sometimes weak
• A number of “clubs” claim to be experts
Exercise Rehab Definition
• Definition of rehabilitation (DeLisa et al., 1998) - “Development of a person to the fullest physical, psychological, social, vocational, and educational potential, within his/her physiological or anatomic impairments and environmental limitations.”
• Cardiac rehabilitation “is the sum of activities required to ensure cardiac patients the best possible physical, mental, and social conditions so that they may, by their own efforts, regain a normal place in the community and lead an active, productive life” (WHO Expert Committee 1964)
Medical evaluation
Education and support for risk factor modification
nutrition
Risk factor modificationRisk factor stratification
Exercise prescription
Exercise programs
smokingcessation
Stress managementVocational counseling
Rehabilitation Programs
• Do they cure individuals of disease?– What do you think?
• Exercise programming should be carefully assessed, medically approved, and regularly updated and tailored to the individual’s clinical state
Clinical Exercise Therapist Jobs
• Exercise Therapist and Personal Fitness and Lifestyle Consultant
– Health & Fitness Certified Exercise Physiologist ™– Canadian Society of Exercise Physiologists (www.csep.ca/)
• Registered Clinical Exercise Physiologist/Specialist– American College of Sports Medicine (www.acsm.org)
• “…is an allied health professional who works in the application of exercise and physical activity for those clinical and pathological situations where it has been shown to provide therapeutic or functional benefit”
Other Professions That May Benefit From Information In the Course
• physicians
• researchers
• physical therapists
• occupational therapists
• recreational/sports therapists
• nurses
• exercise physiologists interested in clinical applications of exercise
Course Content
• Emphasis is placed on the physiological assessment during, and adaptations to, exercise in clinical populations
• Assessment techniques and Exercise Programming
• Clinical sections:• Cardiovascular• Pulmonary• Metabolic• Immunological• Neuromuscular
Course Objectives Cont.
• I want you to:1) Understand the nature of adaptations to exercise and
training
2) Develop a basic understanding of the pathophysiology of various clinical conditions
3) Develop a working knowledge of testing devices and procedures/protocols to evaluate functional capacity
4) Rationalize the matching of an exercise rehabilitative program to a clinical condition
5) Develop a knowledge of expected (realistic) outcomes