PhysioEx 9.4

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Predict Question: What will happen to the urine volume and concentration as the solute gradient in the interstitial space is increased?

The urine volume will decrease and the concentration will increase.

As filtrate passes through the nephron, the renal process of reabsorption describes

the movement of water and solutes from the tubule lumen, into the interstitial space, and, finally, into the peritubular capillaries.

Tubule fluid volume will always be the greatest in which of these locations?

the proximal convoluted tubule.

ADH aids the reabsorption of

water.

In the presence of ADH, what component of the tubule fluid moves out of the collecting duct and into the interstitial space?

water.

What happened to the urine concentration as the solute concentration in the interstitial space was increased? How well did the results compare to your prediction?

As the solute concentration increased the urine concentration increased proportionally. The urine volume decreased as the solute and urine concentration increased. My prediction was the same.

What happened to the volume of urine as the solute concentration in the interstitial space was increased? How well did the results compare to your prediction?

As the solute concentration increased the urine volume decreased, as my prediction stated.

Why is the solute concentration (mOsm) in the proximal tubule the same as in the blood?

Because water and many plasma solutes filter into Bowman's capsule.

Where does ADH directly alter the urine volume?

in the collecting duct.

The maximum solute concentration refers to the amount of solutes

in the interstitial space.

Tubule fluid osmolarity will always be the greatest in which of these locations?

the bottom of the loop of Henle.

Antidiuretic hormone (ADH) affects the permeability of

the collecting duct.

What do you think would happen to urine volume if you did not add ADH to the collecting duct?

The urine volume would increase if ADH was not added to the collecting duct. This is because the ADH work on the collecting ducts where the increase the permeability for water is increased, so less water is secreted into the urine, so urine becomes more concentrated.

Can the reabsorption of solutes influence water reabsorption from the tubule fluid? Explain.

When reabsorption of NaCl occur, then water follows, so other solutes may influence the water reabsorption by making more water follow out of the tubules with the NaCl making the urine concentration increase.

Is most of the tubule filtrate reabsorbed into the body or excreted in urine? Explain.

Yes , most of the filtrates is reabsorbed to maintain homeostasis.The filtrate that enters the proximal tubule is either reabsorbed or secreted. Glucose is reabsorbed mainly in the proximal tubule by GLUT 1 transport carriers. When all these are filled up, then the remaining glucose is secreted in the urine. Both sodium and potassium is filtrated and excessive amount of both is secreted in the urine. Urea is filtered and secreted in the urine. Water is added to the urine, when there is a high concentration in the body, and when there is a change of 1% in osmolality then ADH is added, to maintain the water balance in the body.


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