Integration 2: Nutrition and Exercise

Question 1

Definition of fitness

Answer 1

wide ranging (domestic activities, mild exercise to elite performance)

Question 2

How is fitness level measured?

Answer 2

multifactual
* measured by endurance, strength, flexibility, body composition

Question 3

How does regular exercise improve fitness?

Answer 3

Causes physiological adaptation mainly the overload principle with healthy stress on the body in such a way that it responds, repairs and adapts

Question 4

What is the overload principle?

Answer 4

you have to increase the intensity, duration, type, or time of a workout progressively in order to see adaptations. The adaptations are improvements in endurance, strength, or muscle size.

Question 5

What are health benefits of exercise?

Answer 5

• contributes to a healthy physiological state
• Better balance between basal metabolism and dietary consumption resulting in greater lean tissue and increased % of lean tissue elevates basal metabolism.
• Weight management, CVD health, mental health and ‘perception’, prevention(?) of chronic disease (obesity, diabetes, cancer)

Question 6

What is body composition?

Answer 6

Refers to percentage of fat versus non-fat or lean tissue

Question 7

what s body composition an indicator of?

Answer 7

health and fitness

Question 8

How does exercise improve cardiorespiratory fitness?

Answer 8

Improves aerobic endurance
* Capacity to make ATP to maintain activity (aerobic capacity/VO2 max)
* Increased by durations of activity just sub-VO2 max.

Question 9

How does exercise improve strength fitness?

Answer 9

Improves anaerobic muscle capacity and endurance
* Regular resistance activities results in hypertrophy of muscles creating adaptation.

Question 10

How does exercise improve flexibility fitness?

Answer 10

improves range of motion, increases physics of an activity, enhances speed/agility/energy use.

Question 11

How does exercise improve body composition?

Answer 11

changes proportion of fat stores by reducing fat and increasing lean tissue
* heavier requires more work/energy (dependent on activity,
* healthy % fat 20-30% adult females, 10-20% adult males

Question 12

Reccomendations of exercise for adults (18-64)

Answer 12

• 150mins/ week of moderate to vigorous aerobic PA
• Additional resistance activities also encouraged

Question 13

Reccomendations of exercise for youth?

Answer 13

60 min/ day of moderate to vigorous exercise

Question 14

moderate vs. vigorous intensity exercises

Answer 14

• Moderate Intensity: ‘Recreational activities’, bike riding, fast walking.
• Vigorous Intensity: Jogging/running, competitive cycling, cross country skiing, focused training, team sports

Question 15

What happens with increased participation in PA?

Answer 15

Energy requirements increase with hunger signals going up, assuming you start from a weight neutral situation

Question 16

What happens with increase exercise?

Answer 16

increase in energy requirements such that hunger signals rise assuming starting from a weight neutral situation

Question 17

What are the key duration increments?

Answer 17

• > 30 sec (ver fast)
• ~2min (fast)
• ~20 min (high capacity)
• 1hr (short enduro events)
• 1-2hr (short to middle enduro)
• 3-5hr (middle to long distance enduro events)
• > 5hrs (long events)
• > 24hrs (ultra enduro)

Question 18

What dictates the bodies fuel source?

Answer 18

Time and intensity:
* Fast to Ultra → anaerobic to aerobic
* usually defines the use of glucose, fat and protein proportions

Question 19

How does intensity influence source of fuel during exercise?

Answer 19

• moderate intensity → longer durations use fatty acids and glucose
• high intensity → more glucose dependent

Question 20

How is protein utilized as a fuel during exercise?

Answer 20

generally protein A/A use is low <5%, but longer up to 10% of energy used.

Question 21

How does energy source change over time?

Answer 21

• instant energy: use what is immediately available
• short term: go into glycogen stores
• long term: depend more in circulating blood glucose and fatty acids

Question 22

Whats is the proportional amount of energy coming sources for different exercise intensities?

Answer 22

Question 23

What 2 things impact energy expenditure?

Answer 23

intensity & body weight

Question 24

What are the general dietary reccomendations for fueling exercise?

Answer 24

similar for athletes as the general public
* 40-60% CHO: glycogen and glucose; depends on intensity, duration and sport
* 20-25% fats: more can compete for glycogen replacement, less does not help.
* 10-30% PRO: 0.8g/kg protein per body weight, but can be as high as ~2.0g/kg for endurance/ resistance athletes.

Question 25

What determines rate of fuel utilization and fatigue?

Answer 25

intensity & duration

Question 26

What does intensity and duration determine?

Answer 26

rate of fuel utilization and fatigue

Question 27

What factors influence fatigue?

Answer 27

• lactic acid accumulation
• lower oxygen availability
• change in muscle blood gases
• less glucose availability
• glycogen depletion.

Question 28

How can fuel sources last longer?

Answer 28

maintain longer at lower intensity

Question 29

How does glycogen impact fatigue?

Answer 29

Loss of glycogen, onset of overwhelming fatigue
* Glycogen stores: 60-120g liver, 200-500g muscle
* Glycogen stores last ~1hr of vigorous activity

Question 30

How much fluid is lost at rest?

Answer 30

~1.2L/day (50ml/hr)
* Fluid loss is highly variable and multifactorial, extreme cases up to 500ml (0.5L)/hr in hot environments.

Question 31

When does mild dehydration occur?

Answer 31

2-3% body weight loss of water = mild dehydration
* hypo-natremia (water loss sufficient to reduce blood volume)
* blood volume lower and reduces cardiac capacity.

Question 32

What is the result of untreated dyhydration?

Answer 32

Core body temp continues to rise & imbalance of electrolytes
* cramps, heat stroke, low BP, confusion, loss of consciousness

Question 33

Effect of dehydration on exercise performance

Answer 33

exercise performance declines

Question 34

What does re-hydration or fluid maintenance include?

Answer 34

a balance of water volume, electrolytes and CHO (replenish what you sweat)
* Formulation of drinks is what changes. They are independant of each other.
* Water, salt tab and spring gel

Question 35

What are general reccomendations for hydration with exercise?

Answer 35

• 500ml prior to exercise (<4hr)
• 200-300ml/ 15mins during exercise (<60mins may not require electrolytes)
• > 1 hr electrolytes (isotonic) should be consumed with water during exercise (replace what you have lost- can be measured in a controlled environment)
• After exercise, 500ml for every 0.5kg lost during activity

Question 36

What are general reccomendations for acute nutrition with exercise?

Answer 36

• Prior to exercise: maximizing glycogen stores
• During exercise: maintain glucose concentrations
• Post-exercise: recovery and replenish

Question 37

What factors influence how much glucose should be taken in during exercise?

Answer 37

• sport
• duration
• intensity
• environment
• individual variability
• rate of absorption

Question 38

Acute nutrition prior to exercise

Answer 38

Maximize glycogen stores
* Defined as 2-4 hr before exercise, smaller in volume/portion size (1-2 cups)
* CHO-rich (60-70%), aids glycogen stores
* Low in protein and fats (take longer to be absorbed)
* Consider very small volume and easy to absorb just prior to exercise (gastrointestinal variability).

Question 39

Acute nutrition during exercise

Answer 39

Maintain glucose concentrations
* >60mins activity: 30-60g CHO/hr, but consumed before the hour (absorption), e.g. banana, energy bar, ‘gels’, or fluid energy (independent of electrolytes)
* Wide portfolio of CHO: Combinations (better than just glucose) of simple and polymer saccharides, some may be absorbed more readily than others (label is important) and utilizes different pathways instead of saturating just one

Question 40

Food labels for before, during and after exercise

Answer 40

• before: minimize fats and PRO and maximize CHO and minimize proteins.
• during: less calories
• after: more fats and proteins

Question 41

Acute nutrition post exercise

Answer 41

recovery and replenish
* fluid loss is first (water and electrolytes) then restoring muscle and liver glycogen, replacing proteins
* CHO and protein-rich foods/ fluids within <30mins
* Solid foods 2hr and 6hr after exercise, remaining CHO–rich. Typically 12-24 hr to replenish glycogen stores, dependent on the extent of loss.

Question 42

Solid foods vs. liquid during exercise

Answer 42

Highly variable (individual variability and tolerance)
* GI issues, most common complaint
* Potentially GI tract is ‘trainable’
* Food matrix (solid, fibre content, gel or liquid)
* Glycemic index (high versus low)
* Trial and error (and/or building tolerance through training)

Question 43

What are ergogenic aids?

Answer 43

supplements/ stimulants that give an acute or long term exercise advantage

Question 44

What are some criticisms of ergogenic aids?

Answer 44

• little or no scientific evidence to support claims as evidence adds costs
• Statements of physiological/biological role does not necessarily mean additive advantage; ex. Mg in muscle contraction
• Safety of enriched product can be a concern if not approved

Question 45

What are some ergogenic aids that may provide some benefit?

Answer 45

caffeine, arginine, B-vitamins, glutamine, bicarbonate, creatine
* usually only beneficial though if using consistently or there is reason you might be deficient

Question 46

What is fasted training?

Answer 46

Training while fasting which means lower glycogen but stimulates fat utilization but evidence is controversial
* Some beneficial effects on post exercise muscle energy stores (glycogen) compared with a fed groups.
* Fasted athletes can increase cardio capacity (VO2 max) more than twice as much compared with ‘fed group’.
* may work better for endurance training routines.

Question 47

What fat adaptation with endurance sports?

Answer 47

Adapt to using fatty acids, more so than CHOs through training
* Eating more fats than CHOs in diet (and then training for your event) but is challenging because brain does not like to limit CHO
* Often medium chain FAs are used to increase %fats mobilized
* Can be combined with fasted training- but caution is encouraged, build slowly to allow adaption