Urinary System

Kidney Structure

The Nephron

Urine Formation 1

Urine Formation 2

Hormonal Regulation

100

The structure that carries urine from the kidneys to the bladder.

The uretur.

100

Optimal blood pH.

7.3 - 7.4.

100

The four major steps of urine formation.

Pressure filtration, selective reabsorption, water reabsorption and tubular secretion.

100

Why is the ascending side of the LoH impermeable to H₂O?

Otherwise it would allow the H₂O reabsorbed in the descending side to return to the filtrate.

100

Initiator of ADH secretion.

Osmoreceptors in the hypothalamus detect low H₂O levels in blood.

200

List the wastes secreted by the kidney.

Nitrogenous wastes such as urea and ammonia, uric acid(nucleotide metabolism) and creatinine from muscles.

200

In a healthy person, the collecting duct is found in the renal _____.

Renal medulla, draining into the renal pelvis.

200

H₂O reabsorption mostly occurs in the PCT. True or false?

True. The loop of Henle and collecting duct reabsorb H₂O, but considerably less.

200

Selective reabsorption is done by active transport. True or false?

False. Passive transport of H2O, Cl and urea(small amount) occurs as well (in the first half of the PCT).

200

Source of aldosterone.

The adrenal cortex (right on top of kidneys).

300

A factor that can lead to kidney stones.

A high protein diet.

300

High amounts of cilia and mitochondria are present in the PCT. True or false?

False. High amounts of mitochondria and microvilli to facilitate active transport.

300

Where in the nephron would histamines be secreted?

DCT by tubular secretion.

300

How a high salt diet will affect blood pressure.

High salt intake leads to more salt in blood = more H₂O being reabsorbed = higher BP.

300

The permeability of the DCT and collecting duct is affected by secretions from this structure.

More aquaporins open due to ADH released from the posterior pituary gland.

400

The four major components of the kidney.

Renal cortex, medulla, pelvis and individual nephrons.

400

What could cause high levels of proteins to be present in the urine?

Too high of a blood pressure could force protein into the filtrate when it should remain in the blood.

400

Difference between the descending and ascending side of the loop of Henle.

The descending side increases in hypertonicity as it goes down to reabsorb H₂O, the ascending side actively transports Na⁺to create such conditions.

400

Why does blood that is excessively acidic will lead to urine with a low pH?

More H+ ions will be secreted into the filtrate in the DCT so the resulting urine will be acidic.

400

The effect of alcohol on blood pressure.

Inhibits ADH secretion, H₂O is not reabsorbed so blood pressure decreases.

500

The order of structures urea travels through in the nephron, starting at the renal artery.

Renal artery > afferent arterioles > glomerulus > glomerular(Bowman's capsule) > PCT/peritubular capillary network > loop of Henle > DCT > collecting duct > renal pelvis.

500

Describe the function of the PCT.

The PCT actively transports glucose, AAs, Na⁺, passively H₂O, Cl^- and urea. Has lots of microvilli and mitochondria; selective reabsorption.

500

Describe the ratio of amino acids in the renal artery vs. the renal vein.

Renal vein would have less because the cells in the kidney need to use the amino acids.

500

List 4 particles present in the afferent arteriole, but not the efferent arteriole.

Glucose, ions, amino acids, urea and H₂O.

500

Explain why K⁺ is secreted when low Na⁺ levels are detected in the blood.

Functions in the Na⁺/K⁺ pump to move Na⁺ into the blood and K⁺out, raising Na⁺levels.