Thermoregulation

Question 1

thermoregulation

Answer 1

body’s ability to maintain an internal temperature

Question 2

Temps for humans

Answer 2

although humans can tolerate extremems in environmental temp, a relatively small change in core body temp ~ 4 degrees celcius leads to significant impairment of mental and physical function

Question 3

core body temperature

Answer 3

regulated by hypothalamus, controls involuntary mechanisms that maintain internal temp of 37degrees
hypothalamus is sensitive to small temp changes - 0.1-0.5 degrees

Question 4

thermal receptors

Answer 4

central and peripheral

Question 5

central thermal receptors

Answer 5

hypothalamus and cortex of the brain

- blood perfusing these regions stimulates the receptors

Question 6

peripheral thermal receptor

Answer 6

skin and visceral receptor for cold and warm temps

Question 7

why does Q drop when youre warm

Answer 7

vasodilation for reduction of heat on SA which drives down your BP

Question 8

a risk of increasing heat

Answer 8

not enough perfousion to the brain so you need to elevate their legs

Question 9

activation of the regulatory centres in the hypothalamus reuslts in

Answer 9

thermal effector responses - behavioral, physiological

Question 10

biological rhythms of thermoregulation

Answer 10

wake up

Question 11

bacteria and virus on thermoregulation

Answer 11

immune related but need to protect the proteins in the body

Question 12

what two hormones regulate the body temp

Answer 12

catecholamines and thyroxine

Question 13

thermal balance

Answer 13

body temp is maintained within a narrow range through heat gain and loss

Question 14

do we gain and lose heat

Answer 14

no we get radiated, conducted or convected, then BMR/RMR, thermogenesis, muscular activity, then we evaporate, convect, conduct and radiate

Question 15

radiation (4)

Answer 15

transfer of heat between two objects through electromagnetic heat waves

• the body loses heat if the surrounding is cooler
• the body gains radiant heat from the sun
• represents the majority of the heat less from the body at rest (60%)

Question 16

conduction (3)

Answer 16

transfer of heat between molecules in direct contact

• application to the skin
• 3% of the heat loss from the body at rest

Question 17

convection (4)

Answer 17

transfer of heat with the flow of water or air across the skin
- fan blowing over the surface of the skin
12% of heat loss at rest, 20% of heat loss in water and 20% or heat gain in a hot pool

Question 18

evaporation (6)

Answer 18

• conversion of liquid into vapour
• 150-340 sweat glands/cm^2
• 25% of heat loss at rest occurs via unnoticed insensible perspiration skin and respiratory evaporation
• 99% of sweat is water, 1% electrolyte (Na, K, Cl)
• major mechanism of heat transfer during exercise
• evaporation of sweat cools the skin (not sweat by itself), if the sweat is wiped away, the cooling effect is negated

Question 19

respiratory evaporation

Answer 19

breathing out humidation

Question 20

core temperature

Answer 20

36.1-37.8c

Question 21

rectal temp

Answer 21

valid for core temp

Question 22

esophagus temp

Answer 22

lower than rectal temp due to evaporative cooling with breathing

Question 23

tympanic temp

Answer 23

slighly lower than rectal temp

Question 24

telemetry thermal pills

Answer 24

expensive and more challenging to use

Question 25

skin stemp

Answer 25

temp fluctuates under the influence of environmental conditions

Question 26

heat stress

Answer 26

the physical work and environmental components that combine to create heat load on an ind.

Question 27

factors affecting hyperthermia (4)

Answer 27

heat production - BMR, PA
circadian rhythms
age/gender
body size, body fat

Question 28

5 modulators of hyperthermia

Answer 28

temp, humidity, wind 
hydration status 
fitness 
clothing 
cooling strategies

Question 29

heat strain

Answer 29

acute physiological response and resulting thermoregulatory processes to combat heat stress

Question 30

physiological response of heat exposure (3)

Answer 30

general peripheral dialaion - arteriovenous anastamoses
increased sweating to promote evaportation - compromised by increased humidity (heat stress index)
- 1L of vaporized sweat - 580kcals
increased ventilation (expel heat through lungs)

Question 31

heat can do two things on exercise performance

Answer 31

increase muscle temp without increasing core temp

increase core temp

Question 32

increasing muscle temp without increasing core temp (2)

Answer 32

increased enzyme reacion speed

increased sprint speed

Question 33

increasing core temp (3)

Answer 33

reduce VO2max
impaired submaximal and maximal exercise performance
MVC and repeat spring bouts compromised

Question 34

heat exposure in sport

Answer 34

start training for adaptation to happen, when you compete in the heat with a lower Q, lower blood to uslces and lower drive to exercise

Question 35

kids and temp

Answer 35

increased SA and higher BMR, they dont sweat as much, dissipated through convection and conduction, lower Q, so harder time to get it to the skin

Question 36

females and temp

Answer 36

dont sweat as much and more SA, subcutaneous fat adipose tissue as insulator

Question 37

Q 10 effect

Answer 37

increase temp of enzyme by 1-2 degrees, 5-10% increase in activity

Question 38

heat reduced VO2max (3)

Answer 38

reduced stroke volume
- dilation of vessels reduces TPR leading to decrease in MAP/preload
- decrease in blood plasma volume due to sweating
cardiovascular drift
- HR steadily increases to maintain Q and MAP
reduced utilization of oxygen due to compromised blood flow
- increased anaerobic metabolism

Question 39

why does HR need to increase to maintain Q

Answer 39

because SV is decreased

Question 40

when hr maxes after heat

Answer 40

continue with peripheral resistance or stop vasodilation and increased MAP, but then you accumulate a lot of heat

Question 41

how to increase cycle performance in a tropical climate

Answer 41

physical and perceptual cooling with beverage

Question 42

how to trick the receptors

Answer 42

keep skin temp decreased so they think its cooler than it is

Question 43

exertional heat illness

Answer 43

spectrum of disorders that range in intensity and severity from mild CV and CNS disruptions to severe cell damage, including the brain, kidney and kidney

Question 44

hyperthermia

Answer 44

core temp above 41, above 42 can be fatla, above 44, body begins to denature

Question 45

high body temp can lead to

Answer 45

breakdown in nerve tissue, local hemorrhage, ultimately organ failure

Question 46

minor exertional heat illness

Answer 46

heat cramps and heat syncope

Question 47

heat cramps 2

Answer 47

occur in leg, arms, and abdominal muscles after several hours of strenuous exercise in heat
possible cuases - fluid electrolyte imbalance, dehydration, altered neuromuscular control

Question 48

heat syncope

Answer 48

pooling of blood in periphery affecting CO and flow of blood to brain

Question 49

seriour exertional heat illness

Answer 49

heat exhaustion
heat injury
heat stroke

Question 50

heat exhaustion

Answer 50

(38.5-40c) - rapid and weak pulse

Question 51

heat injury

Answer 51

hyperthermia accompanied by organ damage (rhabdomyolosis)

Question 52

heat stroke

Answer 52

life threatening illness marked by CNS and multiorgan failure

Question 53

goosebumps for heat

Answer 53

early sign of severe heat exhaustion - thermoregulation no longer working properly

Question 54

acclimatization

Answer 54

adaptive changes that occur when an ind undergoes prolonged or repeated exposure to a stressful environment - for you to become more efficient

Question 55

acclimatization to heat (5)

Answer 55

occurs as early as 1-4 days and completed with 10-24 days
increased plasma volume (3-27%
increased sweat distribution
reduced sweat threshold - sweating at lower temp
reduced sweat and urine electrolytes/aldosterone

Question 56

fitness level and acclimatization

Answer 56

regular training will result in 50-60% of total physiological adaptation even if training in a cool environment

Question 57

sweating at salt

Answer 57

you want to retain a lot more sodium to maintain muscle function - if you’re a heavy salt sweater you need more salt

Question 58

4 cooling strategies

Answer 58

precooling/cooling during exercise
clothing
maintain hydration status
reduce warm up time

Question 59

precooling/cooling during exercise

Answer 59

ice vests (keep it on or right after you start take it off), ice packs, mist fans, cold air 
more room

Question 60

clothing for cooling -2

Answer 60

light colored clothing and hat to reflect radiative heat

well ventilated, loose fitting shirt to allow for efficient evaporation

Question 61

maintain hydration status

Answer 61

monitor weight and urine color

Question 62

epidermal microfluidic biosensor - 4

Answer 62

water, lactate, glucose, pH, chloride

Question 63

when you lose % BW hydration 
2-3
5
7
15
20

Answer 63

affect performance - decrease by 30% 
discomfort and lethargy 
dangerous (salivating stops) 
delirium, shiveled skin 
death

Question 64

during exercise, does voluntary fluid intake fully replace fluid loss?

Answer 64

no, gastric emptying rate for water is 600-1200ml/hr

interind variability

Question 65

3 considerations for hydration

Answer 65

150-250 ml every 15 mins during events
carbs and sodium in rehudration solution enhance intestinal absorption
temp does not affect absorption, but cool water will help cool the body

Question 66

strength and power for hydration

Answer 66

alright

Question 67

exercise associated hyponatermia

Answer 67

fluid electrolyte disorder caused by overhydration without adequate electrolyte intake - low blood sodium concetrations (<135mEq/L) leads to swelling in the brain (water into intercellular in brains because brain doesnt lose na) - swelling in brain stem can cause the dorsal ventilatory gp to be pressured

Question 68

symptoms of exercise associated hyponatremia

Answer 68

mild - headahce, nausea, cramping

severe - seizure, coma, cardiac arrest - can be fatal

Question 69

environmental factors affecting hypothermia

Answer 69

temp - keep up Q
water - 4-5 times faster to take heat away
wind - convection - much faster

Question 70

ind factors affecting hypothermia

Answer 70

age - kids have larger SA, dont thermoregulate very well, lose more heat
older - dont vasoconstrict as well
gender - males dissipate more heat because females have insulators

Question 71

insulating factors for hypothermia

Answer 71

subcutaneous fat

clothing - cotton - fibre holds wet moisture aginst your skin, not good, wool is better

Question 72

3 acute physiological responses to cold exposure

Answer 72

general peripheral vasoconstriction
increased metabolic heat production through - non shivering thermogenesis - increased catecholamine and thyroxine release
- shivering thermogenesis - increased heat with muscle contraction
piloerection “goosebumps - subcutaneous fat mechanism to trap heat

Question 73

what receptors do vasoconstrict

Answer 73

alpha 1

Question 74

where do you send heat when youre cold

Answer 74

core for steady temp

Question 75

decreased muslce temp without decrease in core temp (3)

Answer 75

slightly increased VO2 max (4degrees) - good in endurace sports but not short because of a decrease of enzyme activities
reduced fatigue

Question 76

decreased core temp (3)

Answer 76

impaired nerve signaling (sensory and motor
force generation from type 1 muscle fibres impaired, therefore recruitment of type 2 fibres is expedited
strength and power compromised because impaired MU recruitment

Question 77

after drop

Answer 77

in a cold environemnt you want to keep the warm blood at your core, but the as soon as he moves he vasodilates and the cold blood comes in

Question 78

• cold and jerky movements

Answer 78

increased utilization of FT fibres for fine motor movements

Question 79

decreased core temp can drop VO2 max -3

Answer 79

compromised muscle function (Q10), decreased HR, increase blood viscosity
reduced oxygen unloading from hemoglobin
drop of 5-6% in VO2 max for every 1 degree drop in core body temp

Question 80

increased submaximal vo2 with cold -why and 2

Answer 80

increased metabolic rate

• higher metabolic cost for type 1 which reduces fat utilization (bonking) - more glycogen and run out of energy quicker
• coactivation of agnist and antagonist muslces

Question 81

overall effect of decreased core temp

Answer 81

reduced submax endurance

Question 82

hypothermia

Answer 82

core temp less than 35 degrees resulting in the loss of normal function

Question 83

2
4
6
more than 6 drop in core temp

Answer 83

mild - max shivering
mod - ataxia, apathy, cognitive impairment (coordinated movements)
severe - unconsciousness
abnormal heart rhythm, decreased brain blood flow, death
usual fatal limit = core between 23-25

Question 84

cold survival story

Answer 84

female fell into waterfall while skiing
- 80 min after - core 14.4
-13.7 when warming started
returned to normal function

Question 85

why bring extra layers when you go down the back side of the mountain

Answer 85

hypoglycemic and no sun

Question 86

a person is not dead until?

Answer 86

they are warm and dead, metabolic processes in your body is slowed so preserved, as long as they still have a heart beat, dont give up until they are warm and dead

Question 87

frostbite

Answer 87

consequences of water crystalization within tissues that causes cellular dehydration and leads to tissue destruction, occurs when temp falls below 0

Question 88

can you freeze your lungs

Answer 88

no, air that is -40 is humidified and warmted to body temp by the time it reaches the lungs

Question 89

paradoxical undressing

Answer 89

towards the end stages of hypothermia ppl start taking clothes off - failure of vasoconstriction and rush out of core blood?

Question 90

terminal burrowing

Answer 90

curl up into a tiny place, hypothesized to be instinctive behaviour to preserve heat

Question 91

when does cold acclimatization occur?

Answer 91

first 7 days

Question 92

4 effects of cold acclimatization

Answer 92

increased non-sivering thermogenesis
- increase in thyroxin and NE
- uncoupling oxidative phosphorylation adipose tissue increases
reduced shivering threshold
hunting reaction - intermittent peripheral vasodilation of the vessels in the hands, feet, and face for increased skin temp
increased subcutaneous fat - swimmers have economy benefits but some have to do dryland to get rid of it

Question 93

eventual step of cold acclimatization

Answer 93

habituation to discomfort

Question 94

baby withouth the blanket can still be warm to touch because

Answer 94

they have lots of brown adipose tissue

Question 95

4 considerations for cold

Answer 95

dress in layers, wicking as first
20-30% heat lost through head/neck
windchill hardest on toes, fingers, nose, ears
enough glycogen store

Question 96

rec outdoor jogging advice for cold

Answer 96

first half - run into the wind - not much sweat so no cooling ffect
second half - return with wind at back

Question 97

2 layers winter camping (3)

Answer 97

day time - wet clothing because youre generating heat
night - dry clothes for insulation
gortec shell to get rid of

Question 98

should you wear down jakets to exercise

Answer 98

no moisture gets in