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Author(s): Louis D’Alecy, 2009
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Body Temperature Regulation
M1 – Cardiovascular/Respiratory Sequence
Louis D’Alecy, Ph.D.
Fall 2008
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Tuesday 11/11/08, 9:00
Body Temperature Regulation (an example of physiological control system)
27 slides, 50 minutes
1. Control System Generalizations
2. Skin blood flow
3. Body Temperature Regulation
4. Control System Competition
5. Adaptation vs. Acclimatization
6. Control Systems Review
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CONTROL SYSTEM GENERALIZATIONS
1. Homeostatic control systems cannot maintain complete
constancy of controlled variable. (Error signal ***)
2. It is not possible for everything to be maintained
relatively constant by homeostatic control systems.
3. Stability of a variable is achieved by balancing inputs
(+) and outputs (-).
4. The set point of a homeostatic control system can be
reset - raised or lowered.
5. Multiple control systems can operate on the same variable.
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external
environment
STIMULUS receptor
integrating
center effectors RESPONSE
Tb Internal
Environment
STIMULUS
NEGATIVE FEEDBACK
FEEDFORWARD LOCAL
RESPONSE
receptor
Multiple control
systems for
internal
environmental
temperature.
D’Alecy
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Summary
Control of Skin Blood Flow
• Primary heat exchange of body
• Large venous plexus = large blood volume
• Alpha adrenergic vasoconstriction dominant
• Sympathetic-cholinergic vasodilation-sweat*
• Local cooling = vasoconstriction (then VD!)
• Triple response (historical ?Boards?)
– red line, red flare, wheal
• CO2 and O2 minimal effects
• Autoregulation assumed unimportant
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Image of set point mechanism
removed
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SET POINT
Image of set point operator removed
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10McGraw-Hill
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external
environment
STIMULUS receptor
integrating
center effectors RESPONSE
Tb internal
environment
STIMULUS
NEGATIVE FEEDBACK
FEEDFORWARD LOCAL
RESPONSE
receptor
Multiple control
Systems possible
For
Same variable.
Tb
D’Alecy
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HEAT
PRODUCTION
SPECIFIC NERVE CELLS IN BRAIN
TEMP-SENSITIVE
NERVE
ENDINGS
SKELETAL
MUSCLES
STIMULUS SHIVERING
AFFERENT
PATHWAY
EFFERENT
PATHWAY
HOMEOSTATIC REFLEX PATHS
CONTROLLING BODY TEMPERATURE
SMOOTH MUSCLE
IN SKIN
BLOOD VESSELS
BODY TEMP
RECEPTORS EFFECTORS
INTEGRATING
CENTER
BLOOD VESSEL
CONSTRICTION RESPONSES
NERVE FIBERS
NEGATIVE
FEEDBACK
HEAT LOSS
NERVE FIBERS
J. McReynolds
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skin
thermal
receptors
spinal cord
thermal
receptors
suprachiasmatic
nucleus
(circadian rhythm)
HYPOTHALAMUS
temperature integrating center
Central thermal receptors in the hypothalamus
D’Alecy
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**McGraw-Hill
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coenzyme-H 2
O 2
H 2 O
ATP
uncouple
ATP ADP
Na +
Na +
Epinephrine
uncouple oxidative
phosphorylation in
brown fat mitochondria
Thyroxine
futile cycle due to
increased Na
Permeability in cells
Both processes greater in infants than in adults
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Thermoneutral zone - range of environmental
temperatures in which body temperature can be
maintained by adjustment of skin blood flow alone.
Nude human thermoneutral zone 25°- 31°C (77°- 88° F)
Below thermoneutral zone - increased metabolic rate
and vasoconstriction
Above thermoneurtral zone - sweating
THERMONEUTRAL ZONE
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AV Anastomosis
Source Undetermined
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core37°C
32°C
shell
28°C
34°C
31°C
cold environment warm environmentSource Undetermined
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LOCAL RESPONSES TO SKIN BLOOD FLOW
Local heating or cooling of skin produces spinal reflex
increases or decreases in skin blood flow by changing
the degree of alpha adrenergic activation.
NE
heat
warm
receptor
to
brain
NE
vasoconstriction
cold
cold
receptor
to
brain
+ + +
+
+ + -
+
vasodilation
*
D’Alecy
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NE
sympathetic AP
NE
NE
vasoconstriction
below Ta 75 ° F max vasodilation
above Ta 115 ° F
adrenergic receptors - contract vascular smooth muscle
Normal Resting
tone
D’Alecy
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Sweat gland
Precursor fluid similar to plasma
but no protein. Na+ ~ 142meq/L
At low flow most Na+ reabsorbed ~ 5 meq/L
In unacclimatized person
high flow Na+ ~ 50 meq/L
less Na+ reabsorbed.
Training increases aldosterone and Na+ reabsorption,
Better evaporation,
Better cooling.
4
3
2
1 Sympathetic cholinergic nerve
Cholinergic &
Adrenergic
receptors
Source Undetermined
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thermoreceptors
temperature
integrating center
vascular smooth
muscle
sweat
glands
cardiovascular
integrating center
baroreceptors
blood pressure
sweating fluid loss
temperature VD or VC?
COMPITITION Tb MAP
D’Alecy
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Adaptation - a biological characteristic that
favors survival in a particular environment.
e.g. sweating in response to hot
environmental temperature
Acclimatization - environmentally induced
increase in the capacity of system to adapt
e.g. increased volume of sweat
production after weeks of exposure to hot
environment
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inflammation bacterial
lipopolysaccharide
endogenous pyrogens
interleukin 1
tumor necrosis factor
interleukin 6
macrophages and monocytes
arachidonic acid
prostaglandins
HYPOTHALAMIC
SET POINT
cyclooxygenase aspirin
D’Alecy
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Source Undetermined
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HEAT EXAUSTION (excess compensation)
Weakness and fainting in warm environment
Little change in core body temperature
Hypotension - due to loss of fluid (sweat) and decreased total peripheral resistance
due to vasodilation of skin vessels
HEAT STROKE (failed compensation)
Medical emergency -core temperature rises
to point that hypothalamic integrating center
ceases to function. Sign - absence of sweating.
MALIGNANT HYPERTHERMIA
Triggered by some anesthetic agents or genetic defect in
Ca release in skeletal muscle. Increased release of
calcium turns on muscle contraction.
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Control System
Review
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Integrating Center
Afferent
Pathway
Efferent
Pathway
Receptor Effector
STIMULUS RESPONSE
CONTROL SYSTEM
nerves &
hormones
nerves &
hormones
muscle &
glands
feedback
D’Alecy
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Feedforward - system anticipates change in a
controlled variable before it occurs by monitoring
changes in the external environment.
Examples: 1) Skin temperature receptors alter the
body’s heat production and heat loss mechanisms
before there is a change in core body temperature.
2) Glucose receptors in GI tract increase insulin
secretion before glucose absorption has raised blood
glucose.
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HOMEOSTATIC CONTROL SYSTEMS
• REFLEX Involuntary, built-in response to a stimulus
• REFLEX ARC Pathway(s) between stimulus and response in a reflex
• NEGATIVE FEEDBACK SYSTEM
• Responses tend to move variable back in the opposite direction.
• SET POINT The normal value for the variable to be controlled.
• Set point can be physiologically reset (e.g. fever)
• ERROR SIGNAL
– Difference between set point and actual value of variable.
• POSITIVE FEEDBACK SYSTEM
• Response moves the variable further in the same direction.
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Slide 6: D’Alecy
Slide 10: McGraw-Hill
Slide 11: D’Alecy
Slide 12: J. McReynolds
Slide 13: D’Alecy
Slide 14: McGraw-Hill
Slide 17: Source Undetermined
Slide 18: Source Undetermined
Slide 19: D’Alecy
Slide 20: D’Alecy
Slide 21: Source Undetermined
Slide 22: D’Alecy
Slide 24: D’Alecy
Slide 25: Source Undetermined
Slide 28: D’Alecy
Additional Source Information
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