Regulation of water balance (Osmoregulation)
It is regulated by two mechanisms
1) ADH
Mechanism: ADH regulate water balance by tuning renal free water excretion or
retention. ADH secretion is stimulated by plasma hyperosmolarity and
hypovolemia.
2) Thirst
mechanism: It is stimulated by plasma hyperosmolarity and hypovolemia.
In water deficit ECF
hyperosmolarity and hypovolemia develop. Hypovolemia stimulates sympathetic
nervous system (via inhibitions of baroreceptors) and activate
rennin-angiotensin-aldosteron system, both of which finally increase
angiotensin-II production.
Hyperosmolarity stimulates the
osmoreceptors in hypothalamus. Both activated osmoreceptors and increased
angiotensin-II stimulate thirst center as well as increase ADH secretion
leading to water intake and renal water retention to normalize the plasma
osmotic pressure.
1-2% rise of plasma osmolarity and
more than 10-15% reduction of ECF volume stimulate the ADH release. Stimulation
of ADH release starts at plasma osmolarity above 285 mosmol/l (at Na+
>140mmol/l) and reaches maximum at plasma osmolarity 295 mosmol/l (at Na+
=145mmol/l) when one shows maximum antidiuresis with obligatory urine
production only. Inhibition of ADH release starts at plasma osmolarity 280
mosm/l at Na+ <140mmol 280="280" and="and" at="at" inhibition="inhibition" l="l" maximum="maximum" mosm="mosm" na="na" osmolarity="osmolarity" plasma="plasma" reaches="reaches" sup="sup">+
2-3% rise of plasma osmolality and
more than 10-15% reduction of ECF volume stimulates the thirst center.
Stimulation of the thirst center starts at plasma osmolarity 295 mosm/l (at Na+=145mmol/l) and reaches maximum at plasma osmolarity 300
mosm/l (atNa+=148mmol/l) who can drink upto 20-25l/day.
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