Yes, ADH (antidiuretic hormone) stimulates the sensation of thirst. When ADH levels increase in response to dehydration or high blood osmolarity, it triggers the sensation of thirst to encourage drinking and help restore fluid balance in the body.
Polydipsia is the scientific term for the intense sensation of thirst. It is a condition characterized by excessive thirst and often associated with medical conditions such as diabetes or dehydration.
to quench your thirst means when your thirsty you drink something to relive your thirst so your not thirsty anymore.
When your body becomes dehydrated, the pituitary gland releases antidiuretic hormone (ADH) to signal the kidneys to conserve water by producing concentrated urine. ADH helps to maintain the body's fluid balance by reducing water loss through the urine and controlling thirst.
ADH is an abbreviation for the medical term "Antidiuretic Hormone". ADH is a hormone that is released from the posterior pituitary gland that increases water reabsorption in the kidneys, resulting in decreased urinary output.
When the concentration of solutes in the blood, especially sodium, increases, the thirst center in the brain is stimulated. This triggers the sensation of thirst, prompting an individual to drink fluids and restore the body's fluid balance.
ADH
There are two major hormones that regulate water balance in all mammals, including pigs: ADH (anti-diuretic hormone) and the mineralocorticoids. However, there is not a single hormone that is directly responsible for the sensation of 'thirst'.
Diabetes insipidus is caused by a deficiency of antidiuretic hormone (ADH), leading to excessive urination and thirst due to the inability of the kidneys to retain water.
Polydipsia is the scientific term for the intense sensation of thirst. It is a condition characterized by excessive thirst and often associated with medical conditions such as diabetes or dehydration.
The correct phrase is "whet your thirst." This means to sharpen or stimulate your desire for something, usually referring to quenching one's thirst for knowledge or excitement. "Wet your thirst" is not a commonly used phrase.
Consuming MSG, or monosodium glutamate, can lead to increased thirst in some individuals due to its effect on the brain and the stimulation of the taste receptors. MSG is a flavor enhancer that can trigger the umami taste sensation, which may stimulate thirst as part of the overall flavor experience. However, individual responses to MSG can vary, and not everyone will necessarily feel thirsty after consuming it.
ADH
The hormone that stimulates thirst is called antidiuretic hormone (ADH), also known as vasopressin. It is released by the pituitary gland in response to dehydration or high concentrations of solutes in the blood, signaling the body to conserve water and increase fluid intake.
The most important regulator of fluid intake is the sensation of thirst, primarily controlled by the hypothalamus. When the body experiences dehydration or an increase in osmolarity, osmoreceptors in the hypothalamus detect these changes, triggering the thirst response. Additionally, hormonal signals such as the release of antidiuretic hormone (ADH) help to balance fluid levels by promoting water retention, but the immediate drive to drink is largely influenced by thirst.
negative
A sensation of dryness in the throat associated with a craving for liquids, produced by deprivation of drink, or by some other cause (as fear, excitement, etc.) which arrests the secretion of the pharyngeal mucous membrane; hence, the condition producing this sensation., Fig.: A want and eager desire after anything; a craving or longing; -- usually with for, of, or after; as, the thirst for gold., To feel thirst; to experience a painful or uneasy sensation of the throat or fauces, as for want of drink., To have a vehement desire., To have a thirst for.
ADH controls the rate that filtrate moves from the glomerulus into Bowman's capsule. ADH is also the only hormone that provides a system of control over the kidneys as an osmoregulator for urine production. Low levels of ADH in the blood are the brains response to thirst. Also during times of higher solute concentrations, ADH causes more water to be realesed from the nephrons to be reabsorbed by the blood.