Various factors can affect ADH production.Certain drugs can either increase or decrease ADH levels.Physical stress, surgery, and high levels of anxiety can also stimulate ADH.Diabetes insipidus.some tumors, especially of the lung.hypovolemia.
There are 3 very big factors that can have a major effect on soil erosion. These factors are water, ice, and wind.
i don't know the cause, but the effect is that lake and stream levels will drop!!
Potassium and calcium
Coriolis effect global winds and continental deflections are all factors that control surface currents.
The factors which affect soil pH levels are the amount of rainfall, the amount of plants and the number of soil organisms.
Patients who are dehydrated, who have.(hypovolemia), or who are undergoing severe physical stress.may exhibit increased ADH levels. Patients who are overly hydrated or who have.(hypervolemia) may have decreased ADH levels.
Drugs that decrease ADH levels include alcohol, beta-adrenergic agents, morphine antagonists, and phenytoin (Dilantin).
ADH levels would be higher because ADH retains water. Therefore the ADH levels would be high due to the fact that you have not drunken any water during the race, so your body is retaining water.
Antidiuretic hormone (ADH) decreases the amount of sodium in your body and when ever sodium levels go down potassium levels go up (same is true for visa versa) so the amount of Potassium should increase when there is an increase in ADH.
ADH decides the volume.Aldestorone involve in maintaining blood pressure.
coolio
Antidiuretic hormone (ADH)
Certain drugs can either increase or decrease ADH levels. Drugs that increase ADH levels include acetaminophen, barbiturates, cholinergic agents, estrogen, nicotin. Drugs that decrease ADH levels include alcohol, beta-adrenergic agents,.
Drugs that increase ADH levels include acetaminophen, barbiturates, cholinergic agents, estrogen, nicotine, oral hypoglycemia agents, some diuretics (e.g., thiazides), cyclophosphamide, narcotics, and tricyclic antidepressants.
Inhibiting the release of ADH
lower the osmolality of the blood
ADH works to reabsorb water from the lumen of the collecting ducts in the kidneys back into the interstitial space. As a result, high levels of ADH will result in higher concentrations of aquaporin-2 on the luminal membrane, allowing for H2O reabsorption in the otherwise-H2O-impermeable collecting ducts. As a result, the urine will be more highly concentrated due to the loss of water (back into the blood), reaching an osmolarity of around 1400 mOsm maximum. In dehydration, ADH levels are high (enables the body to retain more water) and in over-hydration, ADH levels are low (no need for the body to retain water, hence increased micturition)