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Body Fluids and Acid-Base Balance
Water Balance
Physiology Textbooks Boundless Anatomy and Physiology Body Fluids and Acid-Base Balance Water Balance
Physiology Textbooks Boundless Anatomy and Physiology Body Fluids and Acid-Base Balance
Physiology Textbooks Boundless Anatomy and Physiology
Physiology Textbooks
Physiology
Concept Version 12
Created by Boundless

Regulation of Water Intake

Fluid can enter the body as preformed water, ingested food and drink, and to a lesser extent, as metabolic water.

Learning Objective

  • Describe the regulation of water intake in the body


Key Points

    • A constant supply is needed to replenish the fluids lost through normal physiological activities, such as respiration, sweating, and urination.
    • Thirst is a sensation created by the hypothalamus, which drives organisms to ingest water.
    • Increased osmolarity in blood will act on osmoreceptors that will either stimulate the hypothalamus directly or cause the eventual release of angiotensin II, which stimulates the hypothalamus to cause thirst.
    • The renin-angiotensin system increases thirst as a way to increase blood volume. It is activated by high plasma osmolarity, low blood volume, low blood pressure, and sympathetic nervous system stimulation.

Terms

  • thirst

    The sensation that drives organisms to ingest water. It is considered a basic survival instinct.

  • osmoreceptors

    Sensory receptors, primarily found in the hypothalamus or macula densa that detect changes in the solute concentration of blood.


Full Text

Fluid can enter the body as preformed water, ingested food and drink, and, to a lesser extent, as metabolic water, which is produced as a by-product of aerobic respiration and dehydration synthesis. A constant supply is needed to replenish the fluids lost through normal physiological activities, such as respiration, sweating, and urination. Water generated from the biochemical metabolism of nutrients provides a significant proportion of the daily water requirements for some arthropods and desert animals, but it provides only a small fraction of a human's necessary intake. In the normal resting state, input of water through ingested fluids is approximately 2500 ml/day .

Body water homeostasis is regulated mainly through ingested fluids, which, in turn, depends on thirst. Thirst is the basic instinct or urge that drives an organism to ingest water. Thirst is a sensation created by the hypothalamus, the "Thirst Center" of the human body. Thirst is an important component of blood volume regulation, which is slowly regulated by homeostasis.

Hypothalamus Mediated Thirst

An osmoreceptor is a sensory receptor, primarily found in the hypothalamus of most homeothermic organisms, that detects changes in osmotic pressure. Osmoreceptors detect changes in plasma osmolarity (ie. concentration of solutes dissolved in the blood). When the osmolarity of blood changes (i.e. it is more or less dilute), water diffusion into and out of the osmoreceptor cells changes. That is, they expand when the blood plasma is more dilute and contract with higher concentration. When the osmoreceptors detect high plasma osmolarity (often reperesenting a low blood volume), they send signals to the hypothalamus, which creates the biological sensation of thirst, and also stimulates vasopressin (ADH) secretion, which starts the events that will reduce plasma osmolarity to normal levels.

The Hypothalamus

The hypothalamus is the "Thirst Center" of the human body.

The hypothalamus

Renin-Angiotensin System Mediated Thirst

Another way through which thirst is induced is through angiotensin II, one of the hormones involved in the renin-angiotensin system. The renin-angiotensin system is a complex homeostatic pathway that deals with blood volume as a whole, as well as plasma osmolarity and blood pressure.

The macula densa cells in the walls of the ascending loop of henle of the nephron is another type of osmoreceptor, however it stimulates the juxtaglomerular apparatus (JGA) instead of the hypothalamus. When the macula densa is stimulated by high osmolarity, The JGA releases renin into the bloodstream, which cleaves angiotensinogen into angiotensin I. Angiotensin I is converted into angiotensin II by ACE in the lungs, which is a hormone that has many functions.

Angiotensin II acts on the hypothalamus to cause the sensation of thirst. It also causes vasoconstriction, and release of aldosterone, which causes increased water reabsorption in a mechanism that is very similar to that of ADH. Note that the renin-angiotensin system, and thus thirst, can be caused by other stimuli besides increased plasma osmolarity or a decrease in blood volume. Sympathetic nervous system stimulation and low blood pressure in the kidney's (decreased GFR) will stimulate the renin-angiotensin system as well, and will also cause an increase in thirst.

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