Final Exam Older Adults

Question 1

Aging and Muscle Strength Loss: UE vs. LE, declines and decades of life, women vs. men

Answer 1

• loss in UE and LE strength, but more severe losses in LE
• maintained through 5th decade, declines ~15% per decade in 6th and 7th decades, additional 25-30% loss in 8th decade
• relative losses similar between men and women, but women start at lower absolute strength levels

Question 2

What type/s of strength is/are maintained for the most part throughout aging?

Answer 2

eccentric

Question 3

Average power vs. average force and aging

Answer 3

power reductions substantially greater than force reductions

Question 4

Summary of Skeletal Muscle Changes Associated with Aging: Decreases (14)

Answer 4

1. gross muscle size
2. type 2 fiber area
3. muscle fiber number
4. muscle density (due to increases in fat & CT)
5. maximal strength
6. maximal shortening velocity (speed)
7. rate of force development
8. muscle power
9. specific tension (force/area because decrease density)
10. capillarity density
11. activity of oxidative enzymes
12. mitochondrial density
13. total number of motor units
14. steadiness of maintaining submaximal forces

Question 5

Skeletal Muscle Changes Associated with Aging: Increases (3)

Answer 5

1. intramuscular connective tissue
2. intramuscular fat
3. motor unit size

Question 6

Skeletal Muscle Changes Associated with Aging: Little to No Change (4)

Answer 6

1. fiber type distribution or %
2. type 1 fiber area
3. relative muscle endurance (endurance at a specific % max)
4. glycolytic capacity of muscle

Question 7

Proposed Mechanisms Leading to Decreases in Muscle Strength and Power with Aging

Answer 7

• altered physical activity level
• decreased testosterone and GH
• poor nutrition or disease
• changes in NS
• muscle atrophy

Question 8

Sarcopenia –> decrease strength, power, muscle endurance –> increases in what?

Answer 8

increased difficulty with weight bearing tasks
increased risk of falls and fracture
increased fatigability

which decreases PA and increases disability –> (+)

Question 9

Cardiovascular Changes with Aging

Answer 9

• aerobic capacity decreases about 1% each year
• max HR decreases 1 bpm each year
• max SV decreases, but can be maintained with training
• total blood and plasma volume decrease
• small reductions in hemoglobin con’t

Question 10

Respiratory Changes with Aging

Answer 10

• RV increases
• VC and FEV1.0 decrease linearly with age
• TLC unchanged
• RV:TLC increases (less air can be exchanged)
• minute ventilation decreases
• elasticity decreases (can be reduced with endurance training)
• pulmonary ventilation capabilities of endurance trained athletes are only slightly decreased with aging
• arterial oxygen saturation does not decreased during strenuous exercise for normally active older adults

Question 11

VO2 and Aging

Answer 11

• prior training offers little advantage to endurance capacity later in life unless you stay active
• aging along may not necessarily decrease VO2max
• keeping training intensity and volume high, then rate of decrease in SV and VO2max with aging slows

Question 12

Did you know? VO2

Answer 12

If body comp and physical activity are kept constant, VO2max decreases only 2-5% per decade, rather than the 10% per decade normally attributed to aging.

Question 13

Effects of Aging vs. Reduced PA

Answer 13

Since PA tends to decline substantially as we age, distinguishing between the effects of aging and those of reduced PA is difficult when studying lifelong changes in physiological function

Question 14

Relationship Between Skeletal Muscle Strength and Functional Status

Answer 14

• In a hierarchy of functional tasks with a strength threshold, strength influences the difficult of a task
• Once past the threshold, increases or decreases in strength may have no impact depending on how close you are to threshold

Question 15

Functional Reserve or Reserve Capacity & Independence

Answer 15

• the better you are going into an illness or injury, the better your physiological and functional reserve and therefore the potential for optimal outcome
• With less reserve, the older person will struggle with an activity that a person with a higher reserve may find easy

Question 16

Strength vs. Aerobic Training in preventing strength loss

Answer 16

• Strength training is only exercise to prevent reductions in strength
• Aerobic training does not maintain or increase muscle strength b/c it has little force generation
• American Guidelines recommend both resistance and aerobic training

Question 17

Fiatarone et al. Study: baseline –> after resistance training

Answer 17

• old muscle is very responsive to resistance training
• strength and CSA increases
• functionality (6 min walk test increased)

Question 18

Fiatarone et al. Follow Up Study: resistance training group, supplement group, control group, exercise + supplement group

Answer 18

• functionality improves
• nutritional supplementation had no effect on primary outcome measures
• strength related to function!!!!!!!
• increased activity levels later in life because of improved strength and/or aerobic capacity

Question 19

Resistance Training Increases what in Independent Older Adults? (7)

Answer 19

1. maximal walking speed
2. stair climbing speed
3. dynamic standing balance
4. leg press strength
5. knee extensor strength
6. upper body strength
7. muscle & fiber CSA

Question 20

Resistance Training Does Not Increase What in Independent Older Adults? (2)

Answer 20

1. self selected walking speed

2. static standing balance

Question 21

Osteopenia, Osteoporosis, Nontraumatic fracture

Answer 21

• Osteopenia: low bone mass (1 to 2 SD below that of a sex matched younger adult)
• Osteoporosis: development of nontraumatic fractures as a result of low bone mass (BMD

Question 22

Most Common Fractures with Osteoporosis (female to male ratio)

Answer 22

1. distal forearm 1.5:1
2. thoracic and lumbar verts 7:1
3. proximal femur 2:1

*annual expenditure on care follow hip fracture alone exceeds $10 billion in the US

Question 23

Resistance Training and BMD

Answer 23

• high intensity strength training has a positive effect on the following risk factors for osteoporotic fractures in women 50-70 yo: bone density, muscle mass, muscle strength, dynamic balance, and overall PA activity
• nutritional or pharmacological approaches along maintain or slow the loss of bone, but can’t improve the above factors

Question 24

Sarcopenia: effects of aging, RT, aerobics

• muscular strength
• muscle mass
• muscle power
• muscle quality (less force/area)

Answer 24

Aging: decreases all (strength the most)

RT: increases all (strength the most)

Aerobics: does not influence any

Question 25

CHD: effects of aging, RT, aerobics

• VO2max
• endurance performance
• plasma lipoprotein lipid profile
• hypertension

Answer 25

Aging: decrease VO2 max and endurance performance, increase hypertension, decrease/no change in lipid profile

RT: no change VO2max, increase endurance performance, increase/no change lipid profile, decrease hypertension

Aerobics: increase VO2max, endurance performance, lipid profile, decrease hypertension

Question 26

Diabetes: effects of aging, RT, aerobics

• glucose intolerance
• insulin resistance

Answer 26

Aging: increase both

RT: decrease both

Aerobics: decrease both

Question 27

Changes in height and weight with aging

Answer 27

• height declines 1 cm per decade during 40s and 50s, then accelerates after 60 (women > men) = discs compress, pronounced thoracic curvature
• less fat free mass, more fat

Question 28

Abdominal Obesity: effects of aging, RT, aerobics

• total body fat
• intra abdominal fat
• RMR

Answer 28

Aging: increase in body fat and abdominal fat, decrease in RMR

RT: decrease body and abdominal fat, increase RMR

Aerobics: decrease body and abdominal fat, no effect on RMR

Question 29

Osteoporosis: effects of aging, RT, aerobics

• BMD
• risks of falls
• flexibility or ROM
• osteoarthritis

Answer 29

Aging: decrease BMD and flexibility, increase risk of falls and osteoarthritis

RT: increase BMD, decrease risk of falls, no change in flexibility, decrease osteoarthritis (decrease in pain, increase in fxn)

Aerobics: increase BMD if weight bearing, no change in falls, no change in flexibility, decrease osteoarthritis (decrease pain, increase fxn)

Question 30

Aging and Skeletal Muscle: muscle CSA, type 1 vs. type 2 fiber area and fiber number

Answer 30

• decrease muscle CSA
• no change in % of type 1 or type 2
• decrease # of type 1 and type 2 fibers
• decrease in type 2 fiber area/size

Question 31

Resistance Training Program Design Variables for Older Adults: 7

Answer 31

1. Needs Analysis
2. Exercise Selection
3. Training Frequency
4. Order of Exercises
5. Training Load and Reps
6. Volume (sets)
7. Rest Periods

Question 32

1. Needs Analysis

Answer 32

• health and performance benefits of exercise for older individuals should be made clear
• pattern of activities/interests, activity levels in last 2-3 months, barriers or concerns regarding exercise, level of interest/motivation, social preferences

Question 33

Common Contraindications for High Intensity Exercise (5)

Answer 33

recent fractures (unstable)
advanced CHF
unstable CV disorders
cancer in musculoskeletal system
acute illness

Question 34

2. Exercise Selection (# of exercises, weaknesses)

Answer 34

• safety
• movement analysis of ADLs, occupation, recreational specific skills
• technique experience
• equipment availability
• 8 to 10 exercises for all major muscle groups
• hip ADD and extensors and glutes are common weakness
• machines then free weights

Question 35

Commonly Employed Strength Training Exercises in SNF (5)

Answer 35

1. leg press
2. rowing
3. low back extensions
4. dips
5. cervical extension

Question 36

Elderly Exercise Precautions (3)

Answer 36

1. leg press and machine squat - shoulder loading
2. lateral raise - shoulder impingement
3. cervical - RA, radicular sx

Question 37

3. Frequency (days/week)
   - the more deconditioned the individual…the
   - generally, more intense and high volume the training, the…

Answer 37

• 2 to 3 days per week for general health and fitness (1 day of rest between); 1 to 2 days per week for strength maintenance
• more deconditioned the individual, the higher frequency and lower intensity
• more intense and high volume the training, the lower the frequency

Question 38

4. Exercise Order

Answer 38

• thought of in terms of major muscle groups or bodyparts

- 1 exercise for each muscle group at least

Question 39

5. Training Load & Reps (% 1RM and reps recommended)
   - relationship between load and reps (80% 1RM = ? reps)
   - options for determining starting loads
   - what do older adults respond well to

Answer 39

• 60 to 80% 1RM or variation of loads and reps
• 8 to 12 reps (ACSM recommends 10-15 reps)
• 80% 1RM = 8 reps
• options: trial and error, testing 1 RM and using % of 1RM, estimating 1 RM from multiple reps by using prediction equation
• older adults respond well to higher reps and low loads

Question 40

Momentary Muscle Failure Assessed by: 4 things

Answer 40

1. are last few reps difficult to perform?
2. speed of last few reps?
3. look of concentration and/or determination
4. RPE

Question 41

6. Volume

Answer 41

• volume tolerated is related to training status

- anywhere from 1-3 set programs

Question 42

7. Rest Periods
   - general recommendation for older adult beginners
   - strength/power, hypertrophy, endurance

Answer 42

• 2 to 3 minutes rest generally recommended
• used as variable to vary intensity of training
• educate them not to stop and rest between REPS
• strength/power = 2 to 5 min
• hypertrophy = 20 to 90 sec
• endurance = less than 30 sec for 12-19 reps, 2 to 3 min for greater than 20 reps