No. That's false.
yes
no
Filtrate volume decreases when systemic blood pressure decreases.
yes
Blood pressure increases if the diameter of the blood vessel decreases.
The pressure decreases as it moves away from the heart.
yea,by retention water ,it increase blood volume,which ultimately increase blood pressure..
It doesn't. The opposite is true. Blood pressure is proportional to blood volume. The greater the blood volume is, the higher the blood pressure will be. This is because there will be a greater volume of blood flowing through the blood vessels which means that a greater pressure will be exerted on the walls of the blood vessels, which means increased blood pressure.
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Gelafundin is a substance that is used to increase intravascular volume (the volume inside blood vessels). This may be used for example in case of a low blood pressure (because an increase in the intravascular vol causes an increase in blood pressure) until blood is available.
YES! Changes in blood volume affect arterial pressure by changing cardiac output. An increase in blood volume increases central venous pressure. This increases right atrial pressure, right ventricular end - diastolic pressure and volume. This increase in ventricular preload increases ventricular stroke volume by the Frank - Starling mechanism. An increase in right ventricular stroke volume increases pulmonary venous blood flow to the left ventricular, thereby increasing left ventricular preload and stroke volume. An increase in stroke volume then increases cardiac output and arterial blood pressure. answered by HappyNess0423
Insulin takes glucose from the blood and converts it glycogen that can be stored in the liver and muscles.Insulin can increase blood pressure in a reaction called metabolic syndrome. It decreases glucose and developing studies show that developing diabetes may increase calcium levels which can affect artery calcium deposits. These deposits are associated with high blood pressure.
Blood pressure promotes filtration of blood in the kidneys by, generally, being greater in pressure than blood colloid osmotic pressure and glomerular capsule pressure which produces a net filtration pressure of about 10 mm Hg. Net filtration pressure forces a large volume of fluid into the capsular space. When blood pressure increase or decreases slightly, changes in the diameters of the afferent and efferent arterioles can actually keep net filtration pressure steady to maintain normal glomerular filtration. Constriction of the afferent arteriole decreases blood flow into the glomerulus, which decreases net filtration pressure. Constriction of the efferent arteriole slows outflow of blood and increases net filtration pressure.