Diuretics

Question 1

What is a diuretic

Answer 1

Any drug that accelerates the rate of urine formation

Question 2

How does a diuretic work (general)

Answer 2

Removes Na+ by blocking Na+ ion channels so it cannot be reabsorbed, which in turn causes water to follow, which increases urine output

Question 3

How much Na+ is reabsorbed at the loop of Henle

Answer 3

20-25%

Question 4

How much Na+ is reabsorbed at the distal tubule

Answer 4

5-10%

Question 5

How much Na+ is reabsorbed at the collecting duct

Answer 5

3%

Question 6

What is the main clinical use of diuretics

Answer 6

To manage disorders involving abnormal fluid retention or treating hypertension

Question 7

Where on the nephron is the most Na+ absorbed (as well as other ions)

Answer 7

At the proximal tubule

Question 8

Where are organic acids and bases secreted at along the nephron

Answer 8

Proximal tubule

Question 9

What is hyperuricemia

Answer 9

Too much uric acid in the blood

Question 10

What acid do diuretics compete with in the bloodstream

Answer 10

Uric acid

Question 11

What can happen with diuretics and uric acid

Answer 11

Diuretics compete with uric acid and are transferred out of the bloodstream. Because of this, the patient may end up with an abnormally high level of uric acid in the bloodstream, that would otherwise be normally excreted

Question 12

What part of the nephron is the target portion for diuretics, specifically loop diuretics

Answer 12

Loop of Henle

Question 13

What drugs cause hyperuricemia more often

Answer 13

Furosemide and hydrochlorothiazide

Question 14

What happens to the osmolarity of the urine as it passes through the descending loop of Henle

Answer 14

The osmolarity increases because of the countercurrent mechanism that induces water reabsorption at this part of the nephron

Question 15

What effect does the increase in osmolarity at the loop of henle have on Na+

Answer 15

It increases the salt concentration 3 fold

Question 16

Where is one site along the nephron that osmotic diuretics works

Answer 16

Descending loop of Henle

Question 17

Which portion of the nephron is impermeable to water

Answer 17

Ascending loop of Henle

Question 18

What part of the nephron does loop diuretics work on

Answer 18

The work on the ascending loop of Henle because it blocks Na+ reabsorption at that sight. It is also the place along the nephron that is impermeable to water

Question 19

What kind of diuretics work best at the site of the distal tubule

Answer 19

Thiazide diuretics

Question 20

What happens at the the distal tubule

Answer 20

Mostly just Cl- is reabsorbed, also impermeable to water

Question 21

Where on the nephron do antidiuretics work (ADH)

Answer 21

The collecting duct

Question 22

What types of drugs work best on the proximal tubule

Answer 22

Carbonic anhydrase inhibitors

Question 23

What types of drugs work on the descending limb and part of the proximal tubule

Answer 23

Osmotic diuretcs

Question 24

What types of drugs work best on the ascending loop

Answer 24

Loop diuretics

Question 25

What drugs work best on the distal tubule

Answer 25

Thiazide diuretics

Question 26

What drugs work best on the collecting duct

Answer 26

Antiduretics or K+ sparing diuretics

Question 27

Common causes of edema

Answer 27

1. Heart failure
2. Hepatic ascites
3. Nephrotic syndrome
4. Premenstrual edema

Question 28

What happens with heart failure

Answer 28

The heart cannot sustain sufficient CO, and the kidneys sense a decrease in blood volume, so they respond by increasing Na+ reabsorption and fluid retention. However, the heart cannot keep up because the CO is so low

Question 29

What type of diuretics are commonly used to treat heart failure

Answer 29

Loop diuretics

Question 30

What happens with hepatic ascites

Answer 30

Blood flow in portal system is obstructed which increases portal pressure. This in combo with a decreased osmotic pressure in the blood causes fluid to escape from portal system into the abdomen

Question 31

What is nephrotic syndrome

Answer 31

Disease state of kidneys that causes the glomerulus to allow plasma proteins into the filtrate. This decreases blood osmolarity, resulting in edema

Question 32

Which diuretic category is commonly used to treat hypertension

Answer 32

Thiazides

Question 33

Thiazides

Answer 33

Most widely used diuretics, sulfonamide derivatives

Question 34

What is another name for thiazides

Answer 34

Ceiling diuretics because adding any more drug does not increase the response (aka urine output)

Question 35

What is the mechanism of action thiazides

Answer 35

Inhibit tubular resorption of Na+ and Cl- ions (at the distal tubule)

Question 36

What are two commonly used thiazides

Answer 36

1. Hydrochlorothiazide (HCTZ)

2. Chlorthalidone (hygroton)

Question 37

How do thiazides act specifically on the tubule

Answer 37

Their site of action is on the luminal membrane of the tubule so they must be excreted into the lumen to be effective

Question 38

What happens if kidney function is impaired when using thiazides

Answer 38

They lose their efficacy because the diuretic cannot get into the tubule to act on its site of mechanism

Question 39

What are the results of thiazides

Answer 39

1. H20, Na+, Cl- K+ excreted,
2. does not affect acid-base status of blood.
3. Aid in lowering peripheral vascular resistance and relaxing arterioles of smooth muscle

Question 40

Uses for thiazides

Answer 40

1. Hypertension
2. Heart failure (only if loop diuretics are not enough)
3. Hypercalciuria
4. Diabetes

Question 41

Why does thiazide work so well for BP regulation

Answer 41

Because it lowers the BP without having a huge diuretic effect (very little diuretic action happens at the distal tubule)

Question 42

Adverse effects of thiazides

Answer 42

1. K+ depletion - most frequent problem
2. Hyponatremia - may occur if too much water lost (hypovolemia) because body activates ADH which is an antidiuretic
3. Hyperuricemia (gout)
4. Volume depletion - hypotension if too long
5. Hypercalcemia
6. Hyperglycemia

Question 43

What are common loop diuretics

Answer 43

1. Furosemide (lasix)
2. Ethacrynic acid (edecrin)
3. Bumetanide

Question 44

Which diuretics are the most efficient

Answer 44

Loop diuretics because 25-30% of na+ reabsorption occurs at the ascending loop

Question 45

What affect do loop diuretics have on ca2+

Answer 45

Increase ca2+ content in the urine (different than thiazides - that decrease ca in the urine)

Question 46

Uses of loop diuretics

Answer 46

1. Drug of choice for reducing pulmonary edema or heart failure
2. Treating hypercalcemia (because they increase Ca concentration in urine)

Question 47

Adverse effects of loop diuretics

Answer 47

1. Ototoxicity - hearing issues
2. Hyperuricemia - loops compete with uric acid, which increase the acid level in bloodstream
3. Acute hypovolemia - severe reduction in blood volume that may be threatening
4. K+ depletion
5. Hyperglycemia
6. Hypomagnesemia

Question 48

Where do K+ sparing diuretics act

Answer 48

On the collecting tubule

Question 49

How do K+ sparing diuretics work (MOA)

Answer 49

Inhibit Na+ reabsoprtion and K+ excretion (Na+/K+ exchange interference)

Question 50

MOA of K+ sparing diuretics

Answer 50

The diuretics competitively bind to aldosterone receptors. This blocks the resorption of Na+ and K+ secretion. Thus holding on to K+

Question 51

Uses of K+ sparing diuretics

Answer 51

1. Diuretic - very inefficient due to collecting duct target
2. K+ sparing (given with other diuretics, i.e. with thiazides in order to prevent hypokalemia)
3. Hyper aldosteronism
4. Heart failure

Question 52

Type of K+ sparing drug

Answer 52

Spironolactone and eplerenone

Question 53

Adverse effects of spironolactone

Answer 53

1. Causes gastric upset
2. Dizziness/headache
3. gynecomastia
4. Hyperkalemia

Question 54

What is a drug that is a carbonic anhydrase inhibitor

Answer 54

Acetazolamide

Question 55

What does acetazolamide do

Answer 55

Inhibits the enzyme carbonic anhydrase in the proximal tubule

Question 56

How does acetazolamide work

Answer 56

Causes a decrease in the ability to exchange Na+ for H+, which leads to mild diuretic effects. Blocks Na+ reabsorption, decreases H+ secretion at proximal tubule. inhibits bicarb reabsorption

Question 57

Uses of acetazolamide

Answer 57

1. Glaucoma

2. Altitude sickness

Question 58

What are two types of osmotic diuretics

Answer 58

1. Mannitol

2. Urea

Question 59

What is an adverse reaction of acetazolamide

Answer 59

Metabolic acidosis (because you are not able to excrete H+, it is being blocked).
Kidney stones
K+ depletion

Question 60

What is the main function of osmotic diuretics

Answer 60

To increase urinary output rather than Na+ excretion. Used to maintain urine flowing following trauma or an incident that increases toxic substances in the kidneys

Question 61

Volume depletion

Answer 61

Occurs when too much Na+ is lost and hence too much water follows

Question 62

Azotemia

Answer 62

Elevation in blood urea nitrogen and creatinine levels. Caused from insufficient filtering of the blood by the kidneys

Question 63

Diuretic resistance

Answer 63

Occurs when the patient cannot get rid of the fluid even with a diuretic (seen in heart failure patients)