Exercise in the Heat and the Physiological Rationale behind Acclimatisation .
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Transcript of Exercise in the Heat and the Physiological Rationale behind Acclimatisation .
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Exercise in the Heat and the Physiological Rationale behind
Acclimatisation
http://laurensfitness.com
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INTRODUCTION
Most sports have to compete in change of climate Pushes bodies ability to control its internal
environment Balance between preventing hyperthermia and
maintaining an adequate fuel supply to the muscles. This is an abnormally high core temperature, and
has significant implications on performance and health.
Two significant competitive demands
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HYPOTHALAMUS
Temperature is regulated by the hypothalamus
Posterior hypothalamus is concerned with heat loss
Controls sweating and skin blood flow responses
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HEAT LOSS
Radiation Convection Conduction Evaporation
Hot dry environment 98% of cooling
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ACUTE RESPONSES
Acute responses similar to exercise however exacerbated in the heat.
Increase Skin and Muscle vasodilation/ Visceral vasoconstriction
Increase Core Temperature Increase Sweat Response Increase HR BP Maintenance
Takes precedence over skin blood flow Increase Lactate production Changes in Substrate Metabolism Aldosterone and Vasopressin release
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CARDIOVASCULAR RESPONSE
Progressive decline in SV Due to Sweat losses and Decrease in PV
Increase in HR to compensate Attempt to maintain CO, progressive loss in CO causes a
decrease in BP Extreme Cases – BP regulation wins out over temp regulation Increase stimulus from baroreceptors Blood diverted away from the skin Maintain BP IMPLICATIONS
Hyperthermia as no evaporative sweat losses
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SUBSTRATE METABOLISM/ LACTATE PRODUCTION
Increased RER suggests an increase in CHO usage during exercise in the heat
Epinephrine levels increase with exercise in the heat
Could result in Increase in Lactate production Hepatic BF decreases – less ability to oxidise lactate
back to pyruvate Less chance of efflux during prolonged exercise
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FLUID LOSS
2-3L per hour during exercise in the heat Hypo hydration/ Dehydration
Lack of fluid intake/sweat rate hypo hydration impairs thermoregulation. Leads to…
Hyperthermia Inability to use cooling mechanisms in
extreme environments
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PERFORMANCE IMPLICATIONS
Decreases muscular endurance and max aerobic power
Unsure about the effect on anaerobic performance but research suggests no impact if progressive dehydration does not occur before the event.
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PERFORMANCE IMPLICATIONS
Debate over theories Less substrate availability Increased lactate production Suggested critical core temperature Central regulation of skeletal muscle recruitment
inhibited during exercise in the heat Tucker (2004) showed power output began to fall within the
first 30% of maximal self-paced time trial in the heat. This suggested the decrease in performance was not associated with an altered temperature, heart rate or exercise perception.
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STRATEGIES TO REDUCE EFFECTS
Pre Cooling Ice vests Cold air
Reduces physiological strain Lower Core Temperature
Delays dehydration and hyperthermia Clothing
Light weight/ little as possible
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NUTRITIONALSTRATEGIES Hyper hydration
Chronic, with acclimatization Glycerol + Water,Gastric Discomfort, urination, Increase
body mass Hydration
Only replace 30-70% of sweat losses Rehydration
Water ingested -> dilution of plasma osmolarity-> reduced thirst
Sodium drinks such as Gatorade CHO Loading
Daily intakes 7-10g/kg of BM
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WET BULB GLOBE TEMPERATURE(WBGT)
Estimation of heat stress. WBGT accounts for the levels of humidity,
radiation, wind movement and ambient temperature
WBGT Risk
<18 Low
18-23 Moderate
23-28 High
>28 Hazardous
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ACCLIMATISATION
Repeated exposures to the heat results in adaptations within the body that make the athlete less susceptible to the demands imposed by exercise in the heat.
Heat tolerance is improved Therefore performance in the heat is
improved
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STRATEGIES AND DURATION
Conflicting Views Long term/ short term
Recent research suggests 7-14 days 60-90 minutes however depends on sport Major adaptations plateau after 14 days
Most of adaptation undertaken 5-6 days Acclimation
Artificial Environment Same Intensity and duration
Dehydration can impair outcomes
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ADAPTATIONSImproved skin blood flow Dissipate heat effectively
Lower Heart Rate at given exercise levels
Work at a higher intensity
Effective distribution of CO Meet thermoregulation and metabolism demands
Reduction in sweating threshold
Evaporative cooling begins earlier
Increased distribution of active sweat glands
Maximizes evaporative cooling
Increased sweat rate Maximizes Evaporative Cooling
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ADAPTATIONS
Reduction in loss of water and electrolytes from sweat
Preserves sodium in extra cellular fluids, promotes water retention
Better maintenance of Core Temperature
Fatigue delay, increase thermoregulatory capacities
Increasing sweating sensitivity to increasing core temp
Maximizes Evaporative cooling
Less reliant on CHO metabolism
CHO sparing, less lactate accumulation?
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Sawka et.al (2000)
•Core temperature does not rise as quickly
•Prolongs onset of dehydration and hyperthermia
•Thermoregulatory responses carried out as normal for longer
CORE TEMP
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PLASMA VOLUME
Expansion of plasma volume. Large shift of blood to the peripheral
areas. I.e. decrease in plasma volume.
Stimulates increased renal sodium and water retention.
Aldosterone and Vasopressin (ADH) released to help mediate expansion.
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HEART RATE
Due to increase in Plasma Volume Negates need to maintain CO
Heart rate decreases rapidly in the first four days of an acclimation program and then slowly till the sixth day.
The HR still increased during exercise, but at a much slower rate after acclimation.
A decrease of about 22 from the first day was shown.
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SWEATING
Sweating rate occurs at a lower core temperature. Rate of sweating increases, more effective
evaporative cooling in dry temperatures. Increased distribution of active sweat glands Decrease Sodium concentration due to
Aldosterone release. Retains sodium at renal tubules Plasma osmolarity main stimulator
Higher Plasma sodium concentrations allows for greater water retention in the body.
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Hue et.al (2004) Sweat Rates
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HOW CAN THIS HELP??
Acclimatisation allows the body to exercise for longer at a higher intensity in the heat
Body adapts and delays dehydration and hyperthermia
Better thermoregulation Hence, delays onset of fatiguing elements
and increases performance capacity.