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The Physiological Regulation of Thirst and Fluid Intake

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Afferent neural inflow. Other hormonal signals. Relaxin. Atrial natriuretic peptide (ANP) ... Both hormonal and visceral afferent pathways. Angiotensin & Thirst ... – PowerPoint PPT presentation

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Title: The Physiological Regulation of Thirst and Fluid Intake


1
The Physiological Regulation of Thirst and Fluid
Intake
  • Michael J. McKinley
  • Alan Kim Johnson

2
Why thirst?
  • Habitual
  • Cultural
  • Psychogenic
  • Regulatory response
  • Reductions in fluid content in bodily
    compartments, hypertonicity of extracellular
    fluid, increase in dipsogenic hormone
    concentration
  • Maintains volume and composition of body fluids

3
Key Terms
  • Hypertonicity high concentration of solutes
  • Osmoreceptor sensory receptor that aids in the
    regulation of osmotic pressure
  • Hypovolemia decreased blood/plasma volume due
    to dehydration
  • Circumventricular lie outside blood-brain
    barrier
  • Dipsogenic hormone causes thirst
  • Ex. Angiotensin (ANG) II

4
Cerebral Mechanisms
  • Hypertonicity, cellular dehydration, and
    osmoreceptor stimulation
  • Hypovolemia and extracellular dehydration
  • Angiotensin (ANG) II dipsogenic hormone
  • Afferent neural inflow
  • Other hormonal signals
  • Relaxin
  • Atrial natriuretic peptide (ANP)

5
Osmoregulation Intracelluar Dehydration
  • 1 2 dehydration ? 1st signal for thirst
  • Actually 1 2 increase in osmotic pressure in
    plasma
  • Results from increased concentration of solutes
    (i.e. NaCl or sucrose)
  • Only water, not solutes, cross cell membrane
    (osmosis)
  • Osmoreceptors cause neural cues that initiate
    thirst
  • Hypothalamus

6
  • The anterior wall of the third ventricle (AV3V)
    was the more likely site for osmotic thirst
    regulation and ruled Na concentration as an
    initiating factor.

7
Neural Mechanisms Osmotically Stimulated Thirst
  • Median preoptic nucleus (MnPO) responds to both
    hormonal osmotic stimuli from OVLT SFO
  • Hormones i.e. relaxin, ANG II
  • Osmoregulatory thirst may be blocked by ANG
    antagonists in the MnPO.
  • Ultimately i blood pressure
  • MnPO neurons may be osmoreceptive or receive
    neural input from other receptive parts of the
    brain.
  • AV3V (lamina terminalis) is the location where
    stimuli from circulation, such as increased
    solutes or hormones (i.e. ANG II, relaxin),
    initiate thirst.

8
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9
Thirst Extracellular Fluid Volume Deficits
(Hypovolemia)
  • Causes hemorrhage, sodium loss, edema
  • Endocrine, autonomic, sympathetic nervous
    systems all work to maintain critical blood flows
    ? redistribute blood and interstitial fluids
  • Eventually deficits must be corrected ? sodium
    intake ? thirst
  • All systems need CNS to receive info regarding
    blood condition and/or interstitial volumes for
    extracellular fluid regulation.
  • Both hormonal and visceral afferent pathways.

10
Angiotensin Thirst
  • Renin ANG II highly effective thirst inducers
    in rats.
  • ANG-induced thirst requires lamina terminalis to
    sense circulating peptides and to use info
    derived from the CNS.
  • The systemic and renin-angiotensin systems are
    hypothesized to be functionally coupled in
    regards to maintenance of body fluid homeostasis.

11
Thirst Hindbrain Actions
  • Baroreceptors (arteries) volume receptors
    (atria) in the hindbrain (medulla oblongata)
    control BP blood volume
  • Increases result in inhibition of
    osmolarity-deemed thirst
  • Baroreceptors and volume receptors act as
    negative feedback pathway to prevent overdrinking
  • Decreases result in stimulation of thirst through
    initiation in the medulla (then to hypothalamus)

12
Other Humoral Influences on Thirst
  • Relaxin stimulates thirst
  • Stimulates vasopressin secretion and water
    drinking when administered centrally or
    systemically
  • ANGII relaxin work together to stimulate thirst
    during pregnancy
  • ANP inhibits thirst
  • Released by cardiac myocytes with high
    extracellular fluid volume to inhibit thirst and
    vasopressin secretion
  • Directed mainly against ANG-stimulated drinking
    via circumventricular organs in the lamina
    terminalis
  • SFO key site for these hormones

13
Conclusion
  • Not just one factor influences thirst.
  • Osmotic, ionic, hormonal, nervous signals all
    work together w/CNS to regulate
  • Pathophysiological influences can create
    overactivity or insensitivity to fluid loss (i.e.
    elderly)
  • Psychogenic polydipsia -causes water intoxication
  • A better understanding of neural pathways may
    give insight into the regulation of thirst and
    the associated disorders.

14
Sources
  • McKinley, M.J., Johnson, A.K. (February 2004).
    The Physiological Regulation of Thirst and Fluid
    Intake. News in Physiological Sciences. Vol. 19.
    www.nips.org.
  • www.wikipedia.org
  • Notes by Dr. Steve Gehnrich
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