Diuretics

Question 1

What are the Thiazides diuretics?

Answer 1

hydrochlorothiazide Metolazone Chlorthalidone

Question 2

What are the loop diuretics (edema, hypertension)?

Answer 2

-semide

• Furosemide (biggy)
• Torsemide
• Bumetanide
• Ethacrynic Acid (only one that isn’t a sulfa drug)

Question 3

What are the K+ sparing diuretics (edema, hypertension). Specifically, Na+ channel blockers?

Answer 3

Amiloride Triamterene

Question 4

What are the K+ sparing diuretics (edema, hypertension), specifically aldosterone antagonists?

Answer 4

(Also as antifibrotic in heart failure)

• Spironolactone
• Eplerenone

Question 5

What are the aquaretics (hyponatremia)

Answer 5

-vaptan Conivaptan Tolvaptan MOA: Inhibit ADH receptors

Question 6

What are the Carbonic Anhydrase inhibitors? What are the used to treat?

Answer 6

Acetazolamide

• urinary alkalinization (ex. ASA overdose trapping in lumen)
• Mountain sickness (you blow off CO2 because of altitude, acetazolamide gets ride of bicarbonate to balance things out)
• Glaucoma

Question 7

Osmotic diuretics maintain urine flow by pulling water from cells for excretion. What are their names?

Answer 7

Mannitol

Question 8

What’s the difference between a natriuretic and an aquaretic?

Answer 8

Natriuretic: diuretic that promotes renal excretion of sodium Aquaretic: diuretic that promotes free water clearance

Question 9

Where do osmotic diuretics act within the nephron?

Answer 9

Proximal tubule Thin descending limb of Henle

Question 10

Where do carbonic Anhydrase inhibitors act within the nephron?

Answer 10

Proximal tubule

Question 11

Where do loop diuretics act on in the nephron?

Answer 11

Thick ascending limb of Henle

Question 12

Where do thiazide diuretics act in the nephron?

Answer 12

Distal convoluted tubule

Question 13

Where do Na+-channel blockers act on the nephron?

Answer 13

Cortical collecting duct

Question 14

Where do vaptans act on the nephron?

Answer 14

Collecting duct:

• Prevents ADH-mediated insertion of aquaporins into the membranes of principle cells

Question 15

The majority of diuretics are of what type?

Answer 15

Natriuretics

Question 16

What are common clinical reasons for administering diuretics?

Answer 16

• Essential hypertension
• Edema (CHF, liver failure, kidney failure)

Question 17

What are the K+ sparing diuretics?

Answer 17

• Triamterene (Na+ channel blocker)
• Amiloride (Na+ channel blocker)
• Spironolactone (aldosterone antagonist)

Question 18

What are the K+ losing diuretics?

Answer 18

• Thiazides (Na+ Cl- cotransporter blockers)
• Loop diuretics (Na+ K+ 2Cl- cotransporter blockers)
• Carbonic Anhydrase inhibitors (seldom used)
• Osmotic diuretics (non reabsorbable solutes)

Question 19

What are two concerns of hyperkalemia?

Answer 19

Tall T waves

Arrhythmias:

• Bradycardia
• Ventricular tachycardia Fibrillation

Question 20

Gives the greatest amount of diuresis. Sulfa type drugs.

Answer 20

Loop diuretics

Question 21

What is the mechanism of action of loop diuretics?

Answer 21

MOA: Blocks the Na+-K+-2Cl- cotransporter in the thick ascending limb of Henles’s Loop

Question 22

Diuretic that causes the greatest HCO3- loss?

Answer 22

Thiazide diuretics

Question 23

What are the therapeutic uses of Thiazides?

Answer 23

Hypercalcemia:

• osteoporosis tx
• recurrent calcium kidney stone tx

1. Primary hypertension (combined w/ other drugs)
2. Paradoxically treats nephrogenic diabetes insipidus
3. Synergistic effects w/ loop diuretics

Question 24

What type of urine do Loop Diuretics (Furosemide) produce regardless if the patient is excreting concentrated or already dilute urine?

Answer 24

Large volumes of isotonic urine

max doses produce profound diuresis

Question 25

What is another common name for Furosemide a loop diuretic?

Answer 25

Lasix

Question 26

What are the indications for Loop Diuretics?

Answer 26

• Edema of hepatic, cardiac, or renal origin
• Acute pulmonary edema (removes EC fluid <30 min)
• Furosemide produces a prostaglandin effect (venodilation —> reduced preload)

When rapid and massive fluid removal is needed

Question 27

What is an additional benefit of Furosemide aside from its actions as a diuretic?

Answer 27

Thought to mediate prostaglandin-mediated venodilation reducing preload

Question 28

Pt presents hypertensive and a thiazide diuretic is indicated, but GFR is too low (< 30mL/min) and a thiazide diuretic won’t work. What can you use instead?

Answer 28

Loop Diuretic (Furosemide)

Still works when RBF and GFR are low

Question 29

What are the adverse effects of Loop Diuretics?

Answer 29

• Hyponatremia
• hypochloremia
• Hypovolemia & hypotension
• Hypocalcemia (result of hypokalemia) —> kidney stone formation
• Hypomagnesemia (result of hypokalemia)
• hyperglycemia

​

Hypokalemia (potassium losing diuretic):

• Na+ reabsorbed using a K+/H+ exchanger leading to hypochloremic metabolic alkalosis

Question 30

What are drug interactions to loop diuretics?

Answer 30

• Digoxin (Digoxin and LDs lower K+) digoxin is a competitive inhibitor of K+ in the heart
• ototoxic drugs - risk of hearing loss
• potassium-sparing diuretics

Question 31

What is the MOA of thiazides?

Answer 31

Blocks the Na-Cl cotransporter in the distal convoluted tubule

• Thiazides result in severe magnesium wasting

Question 32

What diuretic doesn’t function well with a low GFR (< 30 mL/ ) and low RBF?

Answer 32

Thiazide diuretics

Question 33

What are the adverse effects of Thiazide diuretics?

Answer 33

• hypochloremic metabolic alkalosis
• hypomagnesia

Question 34

What are the drug interactions to be conscious of with Thiazide diuretics?

Answer 34

increases risk of digoxin and lithium toxicity

Question 35

in terms of ion excretion what are the major differences between thiazides and loop diuretics?

Answer 35

Thiazides as compared to loop diuretics:

• less Na+ excretion
• less K+ excretion
• more bicarbonate excretion

Question 36

What is the MOA of amiloride and triamterene?

Answer 36

K+ sparing diuretics (Na+ channel blockers)

blocks luminal Na+ channels (ENaC) in the collecting duct

Question 37

What is the MOA of spirinolactone and eplerenome?

Answer 37

K+ sparing diuretic (aldosterone receptor blocker)

blocks aldosterone receptors in the colleting duct

Question 38

What is the therapeutic use of triamterene?

Answer 38

K+ sparing diuretic (Na+ channel blocker)

• tx: hypertension
• tx: edema

Question 39

What are the adverse effects of triamterene?

Answer 39

K+ sparing diuretic (Na+ channel blocker)

• hyperkalemia
• nausea, vomiting, leg cramps, and dizziness

Question 40

What’s the key difference between K+ sparing diuretics: Na+ channel blockers vs aldosterone antagonists?

Answer 40

aldosterone antagonisits such as spironolactone is a steroid and can take 48 hours to work.

Na+ channel blockers are much more immediate

Question 41

Known to greatly reduce mortality rate in patients with severe heart failure due to decreasing myocardial fibrosis and reducing early morning rises in heart rate

Answer 41

Spironolactone

Question 42

What are adverse effects of the K+ sparing diuretic Spironolactone?

Answer 42

• Hyperkalemia

Endocrine effects:

• Gynecomastia - major differentiation from Eplerenone (not seen w/ eplerenone use)
• Impotence
• menstrual irregularities
• hirsutism (abnormal hair growth)
• deepening voice

Question 43

What are drug interactions of K+ sparing diuretics, Spironolactone?

Answer 43

• DO NOT give w/ drugs increasing plasma potassium
• use cautiously w/ ACE (-) in heart failure
• combined w/ thiazides & loop diuretics to counteract their potassium loss

Question 44

What are the therapeutic uses of Spironolactone?

Answer 44

K+ sparing diuretic (aldosterone antagonist)

• Primary hyperaldosteronism
• severe heart failure (anti-fibrotic agent)
• Combined with K+ losing diuretics to counteract potassium loss

Question 45

What is the MOA of aquaretics? What’s the goal of their use?

Answer 45

-vaptans (Conivaptan, Tolvaptan)

Increase free water clearance by selective V2 receptor antagonism

the purpose being to correct for a proper Na+:free water

Question 46

What is a major consideration with the oral administration of aquaretics such as Tolvaptan?

Answer 46

can cause hyponatremia and should be used for less than 30 days or the patient runs the risk of developing hepatotoxicity

Question 47

Non-peptide arginine vasopressin receptor antagonists w/ affinity for receptor subtype V1A and V2

Answer 47

Aquaretics: Conivaptan, Tolvaptan

Question 48

Which aquaretic is given orally and which is administered by IV?

Answer 48

Tolvaptan - oral

Conivaptan - Intravenously

Question 49

What are the clinical applications of Aquaretics (Conivaptan, Tolvaptan)

Answer 49

1. Euvolemic/hypervolemic hyponatremia (correcting Na+:free water)
2. slows progression of adult polycystic kidney disease (must monitor liver)

Question 50

What is the typical dose for an osmotic diuretic (mannitol)?

Answer 50

50-200 grams over 24 hours

Question 51

If you’re presented with a patient with: renal insufficiency, nephrotic syndrome, or severe congestive heart failure what is your first choice diuretic?

Answer 51

Loop diuretic (Furosemide)

then add thiazide if you need to

(these are acute patients that need to lose fluid fast)

Question 52

What is a major difference between Spironolactone and Eplereonone?

Answer 52

Both K+ Sparing (Aldosterone antagonists)

Eplerenone - does not cause gynecomastia

Spironolactone - has been correlated w/ gynecomastia