QuestionAugust 7, 2025

Which of the following is true regarding antidiuretic hormone (ADH) and its role in regulating fluid and electrolyte balance? ADH is released from fenestrated capillaries in the anterior pituitary. ADH is produced in the posterior pituitary and is released in response to high osmotic concentrations. Increased ADH inhibits the hypothalamic thirst centers. ADH stimulates water conservation by the kidneys and helps to concentrate the urine. IDON'T KNOWYET

Which of the following is true regarding antidiuretic hormone (ADH) and its role in regulating fluid and electrolyte balance? ADH is released from fenestrated capillaries in the anterior pituitary. ADH is produced in the posterior pituitary and is released in response to high osmotic concentrations. Increased ADH inhibits the hypothalamic thirst centers. ADH stimulates water conservation by the kidneys and helps to concentrate the urine. IDON'T KNOWYET
Which of the following is true regarding antidiuretic hormone (ADH) and its role in regulating fluid and electrolyte balance? ADH is released from fenestrated capillaries in the anterior pituitary. ADH is produced in the posterior pituitary and is released in response to high osmotic concentrations. Increased ADH inhibits the hypothalamic thirst centers. ADH stimulates water conservation by the kidneys and helps to concentrate the urine. IDON'T KNOWYET

Solution
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Answer

ADH stimulates water conservation by the kidneys and helps to concentrate the urine. Explanation 1. Identify ADH production site ADH is produced in the hypothalamus and stored/released from the posterior pituitary. 2. Determine ADH release trigger ADH is released in response to high osmotic concentrations, not from fenestrated capillaries in the anterior pituitary. 3. Evaluate ADH effects on thirst centers Increased ADH does not inhibit hypothalamic thirst centers; it promotes water retention. 4. Assess ADH function in kidneys ADH stimulates water conservation by the kidneys, concentrating urine.

Explanation

1. Identify ADH production site<br /> ADH is produced in the hypothalamus and stored/released from the posterior pituitary.<br /><br />2. Determine ADH release trigger<br /> ADH is released in response to high osmotic concentrations, not from fenestrated capillaries in the anterior pituitary.<br /><br />3. Evaluate ADH effects on thirst centers<br /> Increased ADH does not inhibit hypothalamic thirst centers; it promotes water retention.<br /><br />4. Assess ADH function in kidneys<br /> ADH stimulates water conservation by the kidneys, concentrating urine.
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