Review

. 2023 Sep;47(3):1085-1101.

doi: 10.1007/s11259-023-10104-2. Epub 2023 Mar 18.

Thirst: neuroendocrine regulation in mammals

Luca Todini¹, Francesco Fantuz²

Affiliations

¹ Scuola di Bioscienze e Medicina Veterinaria, Università di Camerino, Via della Circonvallazione 93/95, 62024, Matelica, MC, Italy. luca.todini@unicam.it.
² Scuola di Bioscienze e Medicina Veterinaria, Università di Camerino, Via della Circonvallazione 93/95, 62024, Matelica, MC, Italy.

PMID: 36932281
DOI: 10.1007/s11259-023-10104-2

Review

Thirst: neuroendocrine regulation in mammals

Luca Todini et al. Vet Res Commun. 2023 Sep.

. 2023 Sep;47(3):1085-1101.

doi: 10.1007/s11259-023-10104-2. Epub 2023 Mar 18.

Authors

Luca Todini¹, Francesco Fantuz²

Affiliations

¹ Scuola di Bioscienze e Medicina Veterinaria, Università di Camerino, Via della Circonvallazione 93/95, 62024, Matelica, MC, Italy. luca.todini@unicam.it.
² Scuola di Bioscienze e Medicina Veterinaria, Università di Camerino, Via della Circonvallazione 93/95, 62024, Matelica, MC, Italy.

PMID: 36932281
DOI: 10.1007/s11259-023-10104-2

Abstract

Animals can sense their changing internal needs and then generate specific physiological and behavioural responses in order to restore homeostasis. Water-saline homeostasis derives from balances of water and sodium intake and output (drinking and diuresis, salt appetite and natriuresis), maintaining an appropriate composition and volume of extracellular fluid. Thirst is the sensation which drives to seek and consume water, regulated in the central nervous system by both neural and chemical signals. Water and electrolyte homeostasis depends on finely tuned physiological mechanisms, mainly susceptible to plasma Na⁺ concentration and osmotic pressure, but also to blood volume and arterial pressure. Increases of osmotic pressure as slight as 1-2% are enough to induce thirst ("homeostatic" or cellular), by activation of specialized osmoreceptors in the circumventricular organs, outside the blood-brain barrier. Presystemic anticipatory signals (by oropharyngeal or gastrointestinal receptors) inhibit thirst when fluids are ingested, or stimulate thirst associated with food intake. Hypovolemia, arterial hypotension, Angiotensin II stimulate thirst ("hypovolemic thirst", "extracellular dehydration"). Hypervolemia, hypertension, Atrial Natriuretic Peptide inhibit thirst. Circadian rhythms of thirst are also detectable, driven by suprachiasmatic nucleus in the hypothalamus. Such homeostasis and other fundamental physiological functions (cardiocircolatory, thermoregulation, food intake) are highly interdependent.

Keywords: ADH; Angiotensin; Drinking; Osmoreceptor; Thirst; Water balance.

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Thirst: neuroendocrine regulation in mammals

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Thirst: neuroendocrine regulation in mammals

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