0
Which arteriole radius adjustment was more effective at compensating for the effect of low blood pressure on the glomerular filtration rate?
The adjustment of the afferent arteriole radius is more effective at compensating for low blood pressure and maintaining glomerular filtration rate (GFR). By dilating, the afferent arteriole increases blood flow into the glomerulus, which helps to counteract the decreased pressure and support GFR. In contrast, constricting the efferent arteriole primarily serves to increase resistance and can help preserve GFR, but its effect is less direct compared to the afferent arteriole's role in enhancing inflow.
What else can I help you with?
Does dilation of the afferent arteriole decrease Glomular filtration rate?
No, dilation of the afferent arteriole typically increases glomerular filtration rate by allowing more blood flow into the glomerulus. Constriction of the afferent arteriole would decrease the glomerular filtration rate.
When the afferent arteriole radius is 0.35 mm and the efferent arteriole radius is 0.40 mm what is the glomerular filtration rate?
26.74!
Macula densa feedback (tubuloglomerular feedback) decrease or increase?
The macula densa is involved in tubuloglomerular feedback to help regulate glomerular filtration rate. An increase in NaCl concentration at the macula densa leads to vasoconstriction of the afferent arteriole, decreasing glomerular filtration rate. Conversely, a decrease in NaCl concentration leads to vasodilation of the afferent arteriole, increasing glomerular filtration rate.
What is the effect of constricted arterioles in the glomerular filtration rate?
Constricted arterioles in the glomerulus can lead to a decrease in the glomerular filtration rate (GFR) by reducing the amount of blood flow entering the glomerulus. This can result in decreased filtration of waste and reduced urine production.
How do you increase your GFR?
To increase your glomerular filtration rate, blood flow needs to be increased to the kidneys and the impaired kidneys function restored. The glomerular filtration rate, of GFR, measures how much blood passes through the glomeruli into the kidneys each minute.
What is the effect of reducing afferent arteriole radius on filtration rate?
As the afferent arteriole dilates it exposes the glomerulus to an increased blood pressure, closer and closer to that of the full systemic blood pressure. This increases GFR and Glomerular pressure. -6th Year Medical Student
Is the glomerular filtration rate the same when the efferent arteriole is constricted and dilated?
OLD, INCORRECT ANSWER: Changes in the diameter of the efferent arteriole will either increase (dilation) or decrease (constriction) the blood flow to the glomeruli. An increased flow means a more blood getting filtered over time. NEW, CORRECT ANSWER The 'efferent' arteriole leaves the renal corpuscle. It is easy to remember which direction efferent and afferent things are going by thinking e=exit and a=arrive. If you constrict the efferent arteriole, you actually inhibit blood from leaving the glomerulus, thus increasing the outward hydrostatic pressure pushing fluid into Bowman's capsule and increasing filtration. If you dilate the efferent arteriole, then you reduce pressure in the glomerular capillaries and reduce filtration.
Dilation of the afferent arteriole decrease GFR?
Dilation of the afferent arteriole increases blood flow into the glomerulus, leading to an increase in glomerular filtration rate (GFR) due to the increased pressure on the filtration membrane. This can result in increased urine production.
Where does the transition from an afferent arteriole to an efferent arteriole occur?
glomerulus. The afferent arteriole leads to a ball of capillaries called a glomerulus which is enclosed in a nephron structure called the glomerular capsule. Blood leaves the glomerulus by way of the efferent arteriole.
What is the effect of reducing afferent arteriole radius on filtration?
reducing afferent arteriole radius decreases filtration rate
Why does blood get filtered by the kidneys?
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.
What end of the capillary does filtration occur?
Arteriole
