A.5

Question 1

State the height ranges for different categories of altitude

Answer 1

Near sea level: 0-500 meters

Low altitudes: 500-2000 meters

Moderate altitude: 2000-3000 meters

High altitude: 3000-5500 meters

Extreme altitude: 5500+ meters

Question 2

Define hypoxia

Answer 2

The condition where oxygen supply to cells is insufficient

Or

Inadequate supply of oxygen to respiring tissue

Question 3

Outline Altitude Training

Answer 3

This is training for endurance athletes at altitudes above 2,000 m for several weeks or months in order to gain a competitive advantage in low altitude competitions

Question 4

Outline the effects of altitude on fluid balance

Answer 4

dehydration

Fluid loss is exacerbated

Altitude-induced diuresis (increased urine production) also occurs

Question 5

Outline the physiological effects of altitude.

Answer 5

respiratory responses: such as hyperventilation

cardiovascular responses: elevated sub maximal heart rate

metabolic responses: production of energy and lactic acid via glycolysis may be limited

Question 6

Name the three different approaches to altitude training

Answer 6

– live high, train high (LHTH)
– live high, train low (LHTL)
– live low, train high (LLTH)

Question 7

What are the pros and cons of the Live High Train High approach

Answer 7

Pros:
Maximum exposure to altitude (stimulus is constant)
Stimulus on the body is constant
Cons:
Cannot train at a high intensity as at sea level
Takes a long time of acclimatize = no training

Research = Little support of training effects, less support among experts (some athletes show improved performance, some don’t)

Question 8

What are the pros and cons of the Live High Train Low approach

Answer 8

Pros:
High time spent at altitude
Training at sea level can be very intense
Cons:
Have to live at altitude for at least 3 weeks

Research = Improvements in sea level performance have been shown in events lasting between 8 and 20 minutes

Question 9

What are the pros and con of the Live Low Train High approach

Answer 9

Pros:
No altitude effects in daily life (no headache, no dehydration, no dizziness)
Cons:
Cannot train at a high intensity as at sea level so some athletes report that they have lost fitness

Research = Some findings suggest this can work, but nothing concrete.

Question 10

Describe how to prevent high-altitude illness for athletes.

Answer 10

• Screen for pre-existing medical conditions.
• Promote hydration.
• Ascend gradually.
• Introduce participation in exercise gradually.
• Use medication to prevent AMS, for example, acetazolamide (a respiratory stimulant)

Question 11

What are the 3 altitude sicknesses

Answer 11

acute mountain sickness(AMS)

high-altitude pulmonary edema(HAPE)

high-altitude cerebral edema(HACE).

Question 12

What are the symptoms of Acute Mountain Sickness (AMS)

Answer 12

dizziness
headache
nausea or vomiting
shortness of breath
elevated heart rate.

Question 13

What are the symptoms of high-altitude pulmonary edema (HAPE)

Answer 13

accumulation of fluid in the lungs results in shortness of breath
elevated heart rate 
coughing
wheezing while breathing 
bluish appearance to the skin.

Question 14

What are the symptoms of high-altitude cerebral edema (HACE).

Answer 14

accumulation of fluid in the brain results in confusion
fever
photo-phobia
severe headaches
cessation of physical activities and eventually loss of consciousness.

Question 15

Explain the adaptations resulting from altitude hypoxia

Answer 15

Blood adaptations (for example, increased number of red blood cells)

Muscle adaptations (for example, reduced lean body mass and increased capillary density in the muscles)

Cardio respiratory adaptations (for example, increase in pulmonary ventilation both at rest and during exercise, increased number of alveoli, increased capillary density at the lungs)