Exam 3 test questions

Question 1

You are helping at an aid station during an ultramarathon to ensure the athletes are safe. The first runner comes to the aid station after two hours with a body temperature of 39 degrees C and has lost 2 lbs in that time. They seem to have normal responses to questions. Based on this information, do you think they are safe to continue? Why or why not?

Answer 1

The elevation of body temperature by two degrees is normal for a person that is exercising. The two pounds of weight loss would be due to the runner sweating to try and keep cool. It can be possible for an athelete to lose up to 1.5-2L of water per hour, which would be indicative of a 1.5-2 pound loss. I would have the athelete drink some fluids to replenish what has been lost, but be careful not to cause overdrinking. If at the next stop his temperature had increased above 39 getting closer to 40, I would stop the athelete as exercising above a core temperature of 40 C is dangerous.

Question 2

Bob lives in Death Valley, California. Summertime temperatures are commonly 115° F. One afternoon while jogging on the treadmill in the air-conditioned comfort of the local gym, he decides that he feels cooped-up, hops off of the treadmill and goes outside to continue his run. Assuming he keeps up the same pace as in the gym, what would you expect to occur to the following variables as he begins to exercise in the heat?:

Sweat rate 
Heart rate
Stroke volume
Blood flow to muscles 
Blood flow to the skin

Answer 2

Increase:
Blood flow to the skin
Sweat rate
Heart rate

Decrease:
Stroke volume
Blood flow to muscles

Stay the Same:
N/A

Question 3

Exposure to an altitude of 8,000 ft would cause what to decrease? (select all that apply)

A: partial pressure of oxygen
B: % atmospheric oxygen
C: resting cardiac output
D: resting respiratory rate

Answer 3

A: partial pressure of oxygen

Question 4

What is HiLo training? What are the potential benefits of HiLo training? What are some potential limitations to HiLo training?

Answer 4

Graded
HiLo training is when an athelete lives at altitude but trains at a lower level. The benefits to this are the acclimation to the altitude, which includes an increased plasma volume and therefore a higher hematocrit and hemoglobin level. The benefit to training at lower altitude is that your body can actually train at the intensity necessary to have the cardiovascular responses to training with exercise. This would be an increase in VO2 max that is observed with higher intensity training that cannot be acheived at higher altitudes.

Some limitations to HiLo training is the possibility of living in an area where it is possible. Additionally, it takes two weeks to become acclimated to the higher altitude to see any increase in hematocrit levels and you lose these adaptations within two weeks after leaving the altitude.

Question 5

During acute aerobc exercise, which of the following is NOT increased?
A: SV
B: HR
C: plasma V
D: Respiratory rate

Answer 5

C: plasma V

Question 6

Which of the following are risk factors for heart disease? (select all that apply)

A: high cholesterol
B: love of chocolate ice cream
C: sedentary lifestyle
D: obesity

Answer 6

A: high cholesterol
C: sedentary lifestyle
D: obesity

Question 7

Do each of the following increase, decrease, or stay the same as a result of exercise training?

Plasma V
Resting SV
Max SV
Resting HR
Submax HR
Max HR
Max Q
Max Systolic P

Answer 7

Increase: 
Max SV
Resting SV
Plasma V
Max Q

Decrease:
Resting HR
Submax HR

Stays the same:
Max HR
Max systolic Pressure

Question 8

During maximal exercise what happens to the a-vO2 difference?

Answer 8

decreased venous content due to more unloading in the capillaries

Question 9

What are the limitations of using steps/day as an indicator of exercise volume and intensity?

Answer 9

The limitations is that you could get 7,000 steps per day but never actually meet a moderate to vigorous intensity, and therefore would not get any benefit of doing so. Taking 7,000 steps would probably fulfill the volume requirement for active minutes, the only issue is that the minutes may not be active if it is just a lesiurley stroll through the mall. An increase in heart rate that meats the training zone would be necessary.

Question 10

Which is true of exercise with acute altitude exposure compared to ambient conditions? (select all that apply)

A: Higher submax RR
B: Higher plasma V
C: Higher submax HR
D: Higher VO2 max

Answer 10

A: higher submax RR
C: higher submax HR

Question 11

As intensity increases during aerobic exercise, systolic pressure____, and diastolic pressure_____.

Answer 11

increases, stays the same

Question 12

Which of the following are adaptations to altitude exposure? (select all that apply)
A: Increased RBC V
B: Increased SV
C: Increased plasma V
D: Increased body T

Answer 12

A: Increased RBC V
B: Increased SV
C: Increased plasma V

Question 13

During big muscle activities such as running and cycling at maximum intensity, muscle blood flow accounts for approximately how much of the total cardiac output?

Answer 13

80-85%

Question 14

Which is true of exercise in a hot, humid environment compared to ambient conditions? (select all that apply)
A: Increased sweat production
B: Increased max SV
C: Increased submax VO2
D:Increased max HR

Answer 14

A: Increased sweat production
C: Increased submax VO2

Question 15

During exercise, the major increase in blood flow is observed in the __________.

Answer 15

Active skeletal muscles

Question 16

Which of the following are adaptations to exercising in the heat? (select all that apply)
A: Sweating less
B: Retaining more sodium and water in the kidneys
C: Not sweating until exposed to a higher temp
D: Greater thirst response

Answer 16

B: Retaining more sodium and water in the kidneys

Question 17

During resistance training, increases in blood pressure are due to increased: (select all that apply)
A: Contractility
B: preload
C: afterload

Answer 17

Afterload

Question 18

Which of the following is/are ways that our bodies acclimate to exercising in the cold? (select all that apply)
A: increased muscle blood flow
B: greater sweat response
C: thicker hair
D: increased skin blood flow

Answer 18

A: increased muscle blood flow

Question 19

What were the physiological changes seen after 3 weeks of bed rest? How did that compare to cardiovascular changes observed after 30 years?

Answer 19

After 3 weeks of bed rest, there was a decrease in VO2max, SV, SBP and Q. There was also an increase in resting heart rate. The reductions in these values over three weeks of bed rest were more significant than 3o years of aging on these same individuals. At baseline 30 years later, the values were lower than 30 years prior at baseline as would be expected. But, even the 30 year later baseline levels were all better when compared to the values following 3 weeks of bed rest. This shows that a sedentary lifestyle is worse on your body than naturally aging.

Question 20

What is the primary way that we lose heat from the body during exercise?

Answer 20

Evaporation

Question 21

Acute unacclimated exercise in hot, humid weather would produce which of the following? (select all that apply)

A: decreased skin blood flow

B: faster glycogen depletion

C: increased body temperature

D: poor evaporative heat loss

Answer 21

B: faster glycogen depletion

C: increased body temperature

D: poor evaporative heat loss

Question 22

Increases in cardiac output above 50% of maximum are due to increases in:

Answer 22

HR

Question 23

A moderate exercise workout  of 1 hr at ambient temperature would be expected to produce a sweat loss of x L:
A: 6
B: 3
C: 1 
D: 0.25

Answer 23

1 L

Question 24

During resistance exercise, diastolic blood pressure:

Answer 24

increases

Question 25

At maximal exercise, Willow’s end diastolic volume is 180 ml, her end systolic volume is 40 ml. Her arterial blood oxygen is 18 ml O2/100 ml blood and her mixed venous blood oxygen is 5 ml O2/100 ml blood. Her blood pressure is 188/68 and her pulmonary ventilation is 65 L/min. Her max heart rate is 260 (she is a dog) and her resting heart rate is 80 beats/min. Using the Karvonen method, calculate 60-80% of HRR.

Answer 25

188-224

Question 26

During aerobic training, increases in blood pressure are due to increased: (select all that apply)
A: Contractility
B: Preload
C: Afterload

Answer 26

A: contractility

Question 27

Which factor(s) determine blood flow during acute exercise? (select all that apply)

A: increased vagal tone causing vasodilation
B: increased a-vO2 difference causing vasodilation
C:increased sympathetic tone causing increased vasoconstriction
D: increased metabolic demand causing localized vasodilation

Answer 27

C:increased sympathetic tone causing increased vasoconstriction
D: increased metabolic demand causing localized vasodilation