CV System Changes

Question 1

Functional Capacity and Normal Age-
related Physiological Declines

Answer 1

We cannot stop the aging process!what that can be done is giving more functional reserve

Healthy lifestyle can also bump themselves up

Trained adult at any age on a higher parallel aging curve than untrained

Question 2

Functional Capacity and Normal Age-
related Physiological Declines

Independent functional reserve

Answer 2

Once you hit it you are no longer independent

Depending on your genetics you might not hit the line

Question 3

3 component of the Cardiovascular system

Heart

Answer 3

Serves as a pump

Question 4

3 component of the Cardiovascular system

Blood vessels

Answer 4

Passageways for blood to travel to all parts of the body and back to the heart

Question 5

3 component of the Cardiovascular system

Blood

Answer 5

Transport medium

Main goal of the Cardiovascular system is to transport material throughout the body

Question 6

Hypertension Stages

Normal

Answer 6

Mean SBP/DBP < 120/80 mmhg

Question 7

Hypertension Stages

Elevated
(Previously pre-hypertension)

Answer 7

Mean SBP 120-129 mmHg and DBP <80 mmHg

Question 8

Hypertension Stages
Stage 1 hypertension (Previously pre-hypertension)

Answer 8

Mean SBP 130-139 mmHg or mean DBP 80-89 mmHg

Question 9

Hypertension Stages
Stage 2 hypertension
(Previously hypertension)

Answer 9

Mean SBP ≥ 140 mmHg OR
Mean DBP ≥ 90 mmHg OR

Self-reported use of medication for high blood pressure within the past month OR

Self-reported having been diagnosed with hypertension by a health-care professional

Question 10

Systolic blood pressure (SBP)

Answer 10

Pressure exerted when heart beats and pumps blood

Question 11

Diastolic blood pressure

Answer 11

Pressure exerted when heart rest

Question 12

CV System – Structural Changes

Thickening (Arteries)

Answer 12

Thickening of the walls of the large arteries

With age the internal layer (tunica intima) of the artery thickens and fragments – a process similar to what happens with early
stage atherosclerosis

Even people with healthy heart show this,takes blame off older adults

2-3x the size of the artery

Question 13

CV System – Structural Changes

Stiffness

Answer 13

Increased stiffness of the large arteries, small
arteries, and arterioles (less compliant)

With age the regulation of vasodilation is impaired (vessels are less responsive to biochemical cues for dilation)

Increased resistance = increased blood pressure

Question 14

CV System – Structural Changes

Thickening (left ventricle)

Answer 14

Thickening of the walls of the left ventricle in response to thickening of the walls of the large arteries

Question 15

Does physical activity
have an effect on
lowering blood
pressure in older
adults?

Answer 15

Heart can adapt from the amount of exercise done, increasing the functionality of the heart (stronger heart)

Postural hypotension/Orthostatic intolerance: changing position quickly leads to a decrease in blood pressure

Question 16

Non pharmacological strategies to reduce blood pressure

Answer 16

The majority of non pharmalogical strategy to redce bp is exercise

3x a week for 3 months to see result

Any form of exercise, Aerobic or strength

Helps reconstruct ventricle walls

Question 17

Heart rate definition

Answer 17

number of times the heart beats in one
minute

Question 18

Heart Rate points

Answer 18

The average resting HR of older adults is not
significantly different from young adults

Maximum HR (associated with heavy exercise),
decreases 5-10 beats per minute each decade

Max HR calculation for individuals over 40 yrs:
208 - (0.7 x age)

Question 19

Heart Rate points

Answer 19

The average resting HR of older adults is not
significantly different from young adults

Maximum HR (associated with heavy exercise),
decreases 5-10 beats per minute each decade

Max HR calculation for individuals over 40 yrs:
208 - (0.7 x age)

Question 20

Sympathetic nerve

Answer 20

Reduced Sensitivity: The body becomes less responsive to norepinephrine, meaning the sympathetic nervous system is less activated during stress or exercise.

Receptor Changes: Adrenergic receptors (β-receptors) become less effective, leading to a reduced heart rate and contractility response during exertion.

Impaired Norepinephrine Uptake: Uptake mechanisms for norepinephrine may become less efficient, limiting cardiovascular adjustments during activity

Result: Older adults experience blunted cardiovascular responses, reduced exercise capacity, and slower recovery.

Question 21

Does physical
activity have an effect
on max HR in
older adults?

Sedentary vs Endurance trained

Answer 21

There was no dramatic incline between both

Max heart rate is declining at the same rate no matter activity or not

Doesn’t change the sensitivity of the heart to norepinephrine

Question 22

Stroke volume

Answer 22

the amount of blood (in ml) pumped
from the heart with each beat

Question 23

How does resting supine stroke volume change with aging in men or women?

Answer 23

Resting supine stroke volume showed little change with
aging in men or women

Question 24

How does stroke volume respond to increased activity with age?

Answer 24

Stroke volume changes in response to increased activity do not happen as efficiently with age due to several factors.

Question 25

What factors contribute to less efficient stroke volume changes with age during increased activity?

Answer 25

Reduced heart muscle elasticity

Slower heart rate response to activity

Stiffer arteries

Decreased contractile function of the heart

Less efficient oxygen utilization

Question 26

Cardiac Output –

Answer 26

the total amount of blood ejected from each ventricle of the heart in 1 min, expressed in litres per minute (L/min)

Cardiac Output = Stroke volume x Heart Rate

Q = SV x HR

Question 27

How does cardiac output at rest compare between older and younger adults?

Answer 27

Cardiac output at rest is typically similar in both older and younger adults, as compensatory mechanisms maintain overall stability despite minor changes in stroke volume and heart rate.

Question 28

How does cardiac output during exhaustive activity differ between older and younger adults?

Answer 28

Cardiac output during exhaustive activity is lower in older adults

Heart rate drops and you cannot offset Cardiac output with just that

Question 29

What is the arterio-venous oxygen difference ((a-v)O2 difference)?

Answer 29

It is the difference between the amount of oxygen transported in the arterial blood and the amount of oxygen transported in the mixed venous blood.

Question 30

What is the typical (a-v)O2 difference at rest and during maximal exercise?

Answer 30

At rest: ~5 ml O2/100 ml blood

During maximal exercise: ~15 ml O2/100 ml blood

Question 31

How does the (a-v)O2 difference change with age?

Answer 31

The (a-v)O2 difference decreases with age. For example, a 65-year-old male has an (a-v)O2 difference 20-40% lower than a 25-year-old male

Question 32

How does aging affect muscle oxygen extraction, and can training influence the (a-v)O2 difference?

Answer 32

With age, muscle becomes less effective at extracting oxygen and there is less muscle overall. However, a trained adult can improve their (a-v)O2 difference and become more effective at oxygen extraction through exercise.

Question 33

What is VO2max, and how is it measured?

Answer 33

VO2max is the maximal rate at which oxygen can be taken up, distributed, and used by the body during exercise that engages a large muscle mass. It is measured in ml * kg⁻¹ * min⁻¹.

Question 34

What is the formula for VO2max?

Answer 34

VO2max = Cardiac Output × (a-v)O2 difference

Question 35

How does VO2max change with age, and why?

Answer 35

VO2max declines by about 1% per year after age 25. This decline is mainly due to a reduction in maximal heart rate.

Question 36

VO2 max vs increase in age
for Women

(endurances-trained vs Sedentary)

Answer 36

10percent decline If individuals is sedentary

Sedentary are closer to that individual function (15)
(No longer independent)

Question 37

VO2 max vs increase in age
for Men

(endurances-trained vs Active, Sedentary)

Answer 37

Rate of decline between groups are no different

End point is different

Absolute function levels are different

Train to increase stroke volume and. A.V p, ore muscle in heart

Question 38

Cardiopulmonary System

Answer 38

The heart operates in partnership with the lungs toensure the efficient transport of blood to and from the heart to facilitate the exchange of oxygen and carbon
dioxide.

Question 39

CP system – Structural Changes

Answer 39

Reduction in alveolar surface area

Loss of elastic recoil of the lungs

Increased chest wall stiffness

Decreased inspiratory muscle strength (e.g. diaphragm, intercostals)

Breathe less

Question 40

Reduction in alveolar surface area

Answer 40

less surface area for
gas exchange to occur

Question 41

Loss of elastic recoil of the lungs

Answer 41

increase work
required for respiration

Question 42

Increased chest wall stiffness

Answer 42

increase work required
for respiration

Question 43

Decreased inspiratory muscle strength (e.g. diaphragm, intercostals)

Answer 43

increase work required for respiration

Question 44

Breathless

Answer 44

System is not keeping up