L36 Diuretics

Question 1

How do the kidneys control the ECF volume?

Answer 1

By adjusting NaCl and H2O excretion

Question 2

The glomeruli produce ___ ml/min ultrafiltrate; ___ ml/min of urine is formed.

Answer 2

120; 1

Question 3

To maintain NaCl balance, approximately ___ lbs of NaCl must be reabsorbed by the renal tubules on a daily basis.

Answer 3

3

Question 4

What happens when NaCl intake exceeds output?

Answer 4

Edema develops

Question 5

What do diuretics do, generally?

Answer 5

Increase urine volume, Na+ excretion, and Cl- excretion; they reduce ECF volume by decreasing NaCl content

Question 6

What is reabsorption?

Answer 6

Movement of a substance from the tubule to the blood

Question 7

What is secretion?

Answer 7

Movement of a substance from the blood to the tubule

Question 8

What is excretion?

Answer 8

Movement of a substance from the collecting tubule into the urine

Question 9

What is reabsorbed in the proximal convoluted tubule?

Answer 9

85% of filtered HCO3
60% of filtered NaCl
60% of water
80-90% of filtered K+
70% of filtered Ca2+
100% of organic solutes

Question 10

What is reabsorbed in the thin descending limb of the Loop of Henle?

Answer 10

Water

Question 11

What is reabsorbed in the thick ascending limb of the Loop of Henle?

Answer 11

25% NaCl
NO water
25% Ca2+
100% Mg2+

Question 12

What is reabsorbed in the distal convoluted tubule?

Answer 12

10% NaCl
NO water
5% Ca2+ (regulated by PTH)

Question 13

What is reabsorbed in the collecting tubule?

Answer 13

2-5% NaCl

Water (regulated by ADH)

Question 14

What is secreted in the collecting tubule?

Answer 14

K+ and H+ (regulated by aldosterone)

Question 15

Where does acetazolamide act and what does it do, broadly?

Answer 15

Inhibits CA in the proximal convoluted tubule, leading to inhibition of 85% of NaHCO3 reabsorption

Question 16

Where do osmotic agents (mannitol) act and what do they do, broadly?

Answer 16

Limits water reabsorption in the water-permeable segments of the nephron - PCT, TDL, CT (when ADH is present)

Question 17

Where do loop diuretics (Lasix) act and what do they do, broadly?

Answer 17

Inhibits Na/K/2Cl cotransport in the thick ascending limb of Henle’s loop

Question 18

Where do thiazides act and what do they do, broadly?

Answer 18

Inhibit NaCl co-transport in the distal convoluted tubule

Question 19

Where do potassium sparing diuretics act and what do they do, broadly?

Answer 19

Inhibit aldosterone actions or Na+ channels in the collecting tubule

Question 20

Where do ADH antagonists act and what do they do, broadly?

Answer 20

Prevent ADH-stimulated reabsorption of water in the collecting tubule

Question 21

What is the primary therapeutic goal of diuretic use?

Answer 21

Reduction of edema

Question 22

Except for spironolactone and some ADH antagonists, diuretics generally exert their effects…

Answer 22

…from the luminal side of the nephron

Question 23

How do most diuretics (besides mannitol) get into the tubule fluid?

Answer 23

Secretion across the PT (organic acid/base secretory pathway)

Question 24

How does mannitol get into the tubule fluid?

Answer 24

Filtration at the glomerulus

Question 25

What two major issues can reduce diuretic effectiveness?

Answer 25

1. Decreased renal blood flow/renal failure

2. Drugs that compete for the secretory pump

Question 26

Which drug competes for acidic drugs? Which drug competes for basic drugs?

Answer 26

Acidic: probenecid
Basic: cimetidine

Question 27

The apical side of the epithelial cells face the ___; the basolateral side faces the ___.

Answer 27

Lumen; blood

Question 28

What drives sodium reabsorption in tubule epithelial cells?

Answer 28

Na/K ATPase at the basolateral side of the epithelial cells (3 Na out, 2K in)

Question 29

Describe the Na and K concentrations in the tubule epithelial cells.

Answer 29

Low Na, High K

Question 30

Describe the ion transport in the proximal convoluted tubule.

Answer 30

Apical side:

1. Na/H exchanger (Na in, H out)
2. Cl/base exchanger (Cl in, base out)

Inside the cell: CA converts CO2 and H2O to H2CO3, which becomes H+ and HCO3. The H+ is used in the Na/H exchanger. the HCO3 is used on the basolateral side.

Basolateral side:

1. Na/K ATPase (K in, Na out)
2. HCO3 transporter (out)

Question 31

What is the net effect of transport in the PCT?

Answer 31

Reabsorption of Na+ and bicarbonate

Question 32

What is the MOA of acetazolamide?

Answer 32

Reversible inhibition of CA

Question 33

What are the pharmacodynamics of acetazolamide?

Answer 33

Inhibition of reabsorption of bicarbonate in the PCT

Question 34

Describe the absorption and timing of effects of acetazolamide.

Answer 34

Well-absorbed orally
Effect begins in 30 minutes, maximum at 2 hours
Duration of effect: 12 hours

Question 35

How does acetazolamide get into the tubule?

Answer 35

Organic acid transporter

Question 36

What are the adverse effects of acetazolamide?

Answer 36

1. Metabolic acidosis
2. Hypokalemia
3. Calcium phosphate stones
4. Drowsiness, parasthesias
5. Hypersensitivity

Question 37

What are the contraindications of acetazolamide?

Answer 37

1. Cirrhosis (increased urine pH reduces NH3 secretion, increasing serum NH3)

Question 38

What are the 3 other CA inhibitors?

Answer 38

1. Dichlorphenamide
2. Methazolamide
3. Dorzolamide

Question 39

Discuss the relative potencies of dichlorphenamide and methazolamide to acetazolmide.

Answer 39

Dichlorphenamide: 30x more potent
Methazolamide: 5x more potent

Question 40

How is dorzolamide used?

Answer 40

Topically for ocular use

Question 41

What are the clinical indications of acetazolamide?

Answer 41

1. Diuretic agent (weak, okay backup)
2. Glaucoma
3. Urinary alkalinization (OD, stones)
4. Acute mountain sickness

Question 42

What is the MOA of mannitol?

Answer 42

Osmotic diuresis in PCT, DTL, CT (w/ADH)

Question 43

Discuss the pharmacodynamics of mannitol.

Answer 43

Expansion of intravascular volume that leads to a powerful diuretic effect once it reaches the kidney

Question 44

Describe the absorption and half-life of mannitol.

Answer 44

IV injection only; half-life = 1.2 hours

Question 45

Generally, when are adverse effects seen with mannitol?

Answer 45

When filtration is impaired

Question 46

What are the adverse effects of mannitol?

Answer 46

1. Reduced GFR retains mannitol in the ECF, which moves water out of the cells into the ECF, worsening edema/heart failure. Na+ follows, leading to hyponatremia.
2. Acute pulmonary edema
3. Dehydration
4. Headache/nausea/vomiting

Question 47

What are the contraindications of mannitol?

Answer 47

CHF, renal failure, pulmonary edema

Question 48

What are the clinical indications of mannitol?

Answer 48

1. Maintain/increase urine volume (treat/prevent acute renal failure, promote excretion of toxic substances)
2. Reduce intracranial pressure
3. Glaucoma

Question 49

What is the difference in epithelium in the thin and thick segments of the Loop of Henle?

Answer 49

Thin: simple squamous
Thick: simple cuboidal

Question 50

Describe the ion transport in the thick ascending limb.

Answer 50

Apical:

1. Na/K/2Cl cotransporter (all 3 in)
2. K transporter (out) - creates + charge in lumen, which drives paracellular diffusion of Ca2+/Mg2+ into the blood

Basolateral:

1. Na/K ATPase (K in, Na out)
2. K/Cl transporter (both out)

Question 51

What is the most efficacious diuretic class?

Answer 51

Loop diuretics

Question 52

What is the MOA of furosemide (Lasix)?

Answer 52

Inhibition of Na/K/Cl cotransport & vasodilation

Question 53

What are the pharmacodynamics of furosemide?

Answer 53

Inhibition of the cotransporter reduces Na/K/Cl reabsorption, as well as Ca2+/Mg2+ due to loss of + luminal charge

Renal vasodilation improves renal blood flow

Question 54

Describe the absorption, half-life, and duration of furosemide.

Answer 54

Rapid oral absorption; 1-1.5 hours half-life; duration = 2-3 hours

Question 55

How does furosemide get into the tubules?

Answer 55

Organic acid transporter

Question 56

What are the adverse effects of furosemide?

Answer 56

1. Hyponatremia/hypokalemia/hypomagnesemia
2. Dehydration
3. Metabolic alkalosis
4. Mild hyperglycemia
5. Ototoxicity
6. Hypersensitivity

Question 57

What are the indications of furosemide?

Answer 57

1. Acute pulmonary edema
2. Edema w/CHF
3. Acute hypercalcemia
4. Acute hyperkalemia
5. Hypertension

Question 58

What are the 3 other loop diuretics?

Answer 58

1. Bumetanide
2. Torsemide
3. Ethacrynic acid

Question 59

Discuss the relative potency of bumetanide compared to furosemide.

Answer 59

40x more potent

Question 60

Discuss the relative half-lives of bumetanide and torsemide compared to furosemide.

Answer 60

Bumetanide: 1 hour
Torsemide: 3 hours (5-6 hour duration of action)

Question 61

Which loop diuretic has better oral absorption that furosemide?

Answer 61

Torsemide

Question 62

Why is ethacrynic acid a last resort?

Answer 62

Used only when others exhibit hypersensitivity, as it is nephrotoxic and ototoxic

Question 63

Describe the ion transport in the distal convoluted tubule.

Answer 63

Apical:

1. Na/Cl transporter (both in)
2. Ca2+ channel (in)

Basolateral:

1. Na/K ATPase (K in, Na out)
2. Na/Ca antiporter (Na in, Ca out)
3. Receptor for PTH

Question 64

What does PTH control in the DCT?

Answer 64

Ca2+ reabsorption

Question 65

What is the most commonly used class of diuretics?

Answer 65

Thiazides

Question 66

What is the MOA of hydrochlorothiazide?

Answer 66

Inhibition of Na/Cl contransporter in the distal tubule

Question 67

What are the pharmacodynamics of hydrochlorothiazide?

Answer 67

Produces relatively mild diuresis and increased Ca2+ reabsorption

Question 68

Describe the absorption and half-life of hydrochlorothiazide.

Answer 68

Good oral; half-life = 2.5 hours

Question 69

What are the adverse effects of hydrochlorothiazide?

Answer 69

1. Hyponatremia/hypokalemia
2. Dehydration
3. Metabolic alkalosis
4. Hyperuricemia
5. Hyperglycemia
6. Hyperlipidemia (increased LDL)
7. Weakness, fatigue, paresthesias
8. Hypersensitivity

Question 70

What are the indications of hydrochlorothiazide?

Answer 70

1. Hypertension
2. CHF
3. Reduced Ca2+ excretion to prevent kidney stones

Question 71

What are 4 other thiazide diuretics?

Answer 71

1. Chlorothiazide
2. Metolazone
3. Indapamide
4. Chlorthalidone

Question 72

Discuss the relative potencies and half-lives of the 4 thiazide diuretics to hydrochlorothiazide.

Answer 72

Chlorothiazide: 1/10 potency, 1.5 hours half life

Metolazone: 10x more potent, 4-5 hours half life

Indapamide: 20x more potent, 10-22 hours half life

Chlorthalidone: same potency, 44 hour half-life

Question 73

What is the most efficacious thiazide diuretic?

Answer 73

Metolazone

Question 74

What are the two types of cells in the collecting tubules?

Answer 74

Principal and intercalated

Question 75

Describe the ion transport in the principal cells of the collecting tubule.

Answer 75

Apical:

1. Na, K, H2O channels (Na/H2O in, K out)
2. Cl- (paracellular transport in - net negative charge of Na absorption > K secretion repels Cl- and attracts K into the lumen)

Basolateral:
1. Na/K ATPase (K in, Na out)

Question 76

___ regulates expression of Na/K ATPase and channels in the principal cells.

Answer 76

Aldosterone

Question 77

___ regulates water channels and water reabsorption in the principal cells.

Answer 77

ADH

Question 78

Describe the ion transport in the intercalated cells of the collecting tubule.

Answer 78

Apical:
1. H+ ATPase (H+ out)

Basolateral:
1. HCO3/Cl antiporter (HCO3 out, Cl in)

Question 79

The H+ ATPase of the intercalated cells is regulated by ___.

Answer 79

Aldosterone

Question 80

Discuss how hypokalemia arises in the setting of acetazolamide and other CA inhibitors.

Answer 80

These drugs increase HCO3 in the tubule, leading to increased lumen negative potential. In the collecting tubule, this enhances K+ efflux from the principal cells, leading to hypokalemia.

Question 81

Discuss how hypokalemia arises in the setting of loop and thiazide diuretics.

Answer 81

These drugs increase Na/Cl, leading to increased lumen negative potential. In the collecting tubule, this enhances K+ efflux from the principal cells, leading to hypokalemia.

Question 82

Discuss how metabolic alkalosis arises in the setting of loop and thiazide diuretics.

Answer 82

These drugs increase Na/Cl, leading to increased lumen negative potential. In the collecting tubule, this enhances H+ efflux from the intercalated cells, leading to metabolic alkalosis.

Question 83

What are potassium sparing diuretics?

Answer 83

Agents often given to avoid hypokalemia that accompanies CA inhibitors, loop diuretics, and thiazide diuretics

Question 84

When are potassium sparing diuretics contraindicated?

Answer 84

Setting of hyperkalemia or in patients on drugs or with diseases states likely to cause hyperkalemia (diabetes mellitus, multiple myeloma, tubulointerstitial renal disease, renal insufficiency)

Question 85

What are 2 common drugs that can cause hyperkalemia?

Answer 85

Potassium supplements and ACE inhibitors

Question 86

What is the MOA of spironolactone?

Answer 86

Competitive inhibition of the aldosterone receptor + anti-androgenic effects (decreases testosterone synthesis, competitively inhibits DHT receptor)

Question 87

Discuss the pharmacodynamics of spironolocatone.

Answer 87

Causes mild diuresis due to decreased Na+ reabsorption secondary to aldosterone inhibition; spares K+/H+

Question 88

Describe the onset of action of spironolocatone.

Answer 88

Slow, takes days to have an effect

Question 89

What are the adverse effects of spironolactone?

Answer 89

1. Hyperkalemia (most important)
2. Metabolic acidosis
3. Gynecomastia/amenorrhea/impotence/decreased libido
4. GI upset (peptic ulcers)
5. CNS effects (headache, fatigue, confusion)

Question 90

What is eplerenone?

Answer 90

Competitive antagonist of aldosterone binding (more expensive, but not anti-androgen efects)

Question 91

How does spironolactone cause metabolic acidosis?

Answer 91

By blocking aldosterone binding, Na+ and H+ channels are expressed less. This decreases the lumen negative potential and reduces the driving force for H+, which remains in the blood, leading to decreased pH.

Question 92

What are the indications of spironolactone?

Answer 92

1. Primary hyperaldosteronism
2. Secondary hyperaldosteronism
3. Liver cirrhosis
4. Hypertension

Question 93

What is the MOA of amiloride?

Answer 93

Blocks Na+ channels in the principal cells

Question 94

Discuss the pharmacodynamics of amiloride.

Answer 94

Blocking Na+ influx decreases the driving force for K+ efflux, so K+ is spared

Question 95

What is the half-life of amiloride?

Answer 95

21 hours

Question 96

How does amiloride get into the tubules?

Answer 96

Secreted via the organic base transporter

Question 97

What are the adverse effects of amiloride?

Answer 97

1. Hyperkalemia (exacerbated by NSAIDs)
2. GI upset (nausea, vomiting, diarrhea)
3. Muscle cramps
4. CNS effects (headache, dizziness, etc.)

Question 98

How does amiloride cause hyperkalemia?

Answer 98

Blocking Na+ influx decreases the lumen negative potential and reduces K+ efflux

Question 99

What are the clinical indications of amiloride?

Answer 99

1. Edema
2. Hypertension
3. Combined with other diuretics to reduce K+ loss

Question 100

What is the MOA of triamterene?

Answer 100

Blocks Na+ channels in the principal cells

Question 101

Discuss the pharmacodynamic of triamterene?

Answer 101

Blocking Na+ influx decreases the driving force for K+ efflux so K+ is spared; active form can precipitate and obstruct tubular flow

Question 102

What is the half-life and relative potency of trimaterene to amiloride?

Answer 102

4 hours; 10x less potent

Question 103

How does triamterene get into the tubules?

Answer 103

Secreted via the organic base transporter

Question 104

What are 2 old ADH antagonists and what are kind of drugs are they?

Answer 104

1. Demeclocycline (tetracycline antibiotic)
2. Lithium (treatment of mania)

Both are nephrotoxic

Question 105

What is the MOA of Tolvaptan?

Answer 105

ADH antagonism; elective antagonist of vasopressin V2 receptor; induces increased, dose-dependent production of dilute urine without altering electrolyte balance

Question 106

How is Tolvaptan absorbed and what is its half-life?

Answer 106

Oral; 6-8 hours

Question 107

What are the 3 V2 receptor antagonists?

Answer 107

Tolvaptan
Mozavaptan
Lixivaptan

Question 108

What is the V1a and V2 receptor agonist?

Answer 108

Conivaptan

Question 109

What are the adverse effects of ADH antagonists?

Answer 109

1. Hypernatremia
2. Thirst
3. Dry mouth
4. Hypotension
5. Dizziness

Question 110

What are the indications of ADH antagonists?

Answer 110

1. SIADH
2. Euvolemic/hypervolemic hyponatremia
3. CHF

Question 111

What is conivaptan used for?

Answer 111

IV formulation for the treatment of euvolemic hyponatremia

Question 112

What are the potassium wasting diuretics?

Answer 112

CA inhibitors, loop agents, and thiazides

Question 113

What are the 3 determinants of capillary filtration?

Answer 113

1. Hydrostatic pressure
2. Oncotic pressure
3. Capillary permeability

Question 114

How does edema occur?

Answer 114

Increased capillary hydrostatic pressure with decreased plasma oncotic pressure; this setting favors filtration over absorption

Question 115

What do diuretics do in the setting of edema?

Answer 115

Decrease capillary hydrostatic pressure and increase plasma oncotic pressure to favor absorption over filtration.

Question 116

In renal disease, you can get a urinary loss of albumin - how does this lead to systemic edema?

Answer 116

Hypoalbuminemia alters starling forces

Question 117

In renal disease, you can get a reduced GFR - how does this lead to systemic edema?

Answer 117

Reduced GFR leads to renal Na+ retention

Question 118

In liver cirrhosis, you can get increased pressure in hepatic sinusoids - how does this lead to systemic edem?

Answer 118

This increased pressure causes exudation of fluid into the peritoneal cavity. In addition to causing ascites, this leads to plasma volume depletion. The RAA system is activated, leading to renal Na+ retention and edema. Note that hypoalbuminemia also leads to plasma volume depletion and its downstream effects.

Question 119

Hepatic cirrhosis is resistant to ___, but this diuretic is effective.

Answer 119

Resistant to loop diuretics; aldosterone receptor antagonists are effective

Question 120

How can heart disease lead to systemic edema?

Answer 120

In right ventricular dysfunction, hypotension leads to renal Na+ retention. Left ventricular dysfunction also leads to hypotension and its downstream effects. It also leads to increased pulmonary venous pressure and pulmonary edema.

Question 121

Thiazide/loop diuretics can be effective in treating CHF, but they may cause what problem if aldosterone is high?

Answer 121

Excessive K+ loss, leading to hypokalemia. This can increase risk of coronary events, stroke, and sudden death

Question 122

What is a good alternative diuretic to prevent hypokalemia-induced cardiac dysfunction in CHF?

Answer 122

Spironolactone, or combining ACE inhibitors with thiazide or loop diuretics (NEVER with spironolactone)

Question 123

What drug is indicated in right heart failure?

Answer 123

Oral loop diuretics

Question 124

What drugs i indicated in left heart failure (acute)/

Answer 124

IV loop diuretics

Question 125

What is hyponatremia?

Answer 125

Serum Na+ concentration <136 mEg/L

Question 126

What are the symptoms of hyponatremia?

Answer 126

Headache/disorientation, fatigue, hallucinations, respiratory arrest, seizures, coma, and death (CNS symptoms)

Question 127

What are some causes of hypovolemic hyponatremia?

Answer 127

Diarrhea, vomiting, excessive sweating

Question 128

What is an effective treatment for hypovolemic hyponatremia?

Answer 128

Infusion of 0.9% saline

Question 129

What are some causes of euvolemic hyponatremia?

Answer 129

SIADH, hypothyroidism, adrenal insufficiency

Question 130

Can a saline infusion be used to treat euvolemic hyponatremia?

Answer 130

No - it may be ineffective or worsen the hyponatremia

Question 131

What are some causes of hypervolemic hyponatremia?

Answer 131

CHF, cirrhotic liver disease, nephrotic syndrome

Question 132

Can a saline infusion be used to treat hypervolemic hyponatremia?

Answer 132

No

Question 133

What drug has been shown to increase serum [Na+] and urine output while decreasing urine osmolality?

Answer 133

AVP receptor antagonists

Question 134

For uncomplicated HT, what drug should be used?

Answer 134

Thiazide diuretic

Question 135

What happens in nephrogenic diabetes insipidus?

Answer 135

Disruption of ADH effects leading to the inability to concentrate urine (leas to polyuria)

Question 136

What can be used to treat nephrogenic diabetes insipidus?

Answer 136

Thiazides

Question 137

Most kidney stones contain ___.

Answer 137

Calcium

Question 138

Why are thiazides useful in some patients with calcium oxalate stones?

Answer 138

They decrease Ca2+ concentration by promoting reabsorption in the DCT

Question 139

What is hypercalcemia?

Answer 139

Marked elevation of serum calcium >14 mg/dL

Question 140

What causes hypercalcemia?

Answer 140

Malignancy or primary hyperparathyroidism

Question 141

What are the symptoms of hypercalcemia?

Answer 141

Nausea, vomiting, alterations of mental status, abdominal/flank pain, constipation, lethargy, depression, weakness and vague aches, polyuria, headache, coma

Question 142

What is used to treat hypercalcemia?

Answer 142

Loop diuretic with hydration; AVOID thiazide diuretics (would exacerbate)

Question 143

What are some causes of diuretic resistance?

Answer 143

1. NSAID co-administration
2. CHF/chronic renal failure
3. Nephrotic syndrome
4. Hepatic cirrhosis

Question 144

What do NSAIDs cause diuretic resistance

Answer 144

They block PG-induced increase in RBF (vasodilation). They increase expression of Na/K/2Cl cotransporter in TAL. Finally, they compete for organic acid transporter in PCT.

Question 145

What is loop + thiazide combination therapy used for?

Answer 145

In patients refractory to one or the other (may be too robust and lead to K+ wasting)

Question 146

What is K+ sparing + loop or thiazide combination therapy used for?

Answer 146

Prevention of hypokalemia (avoid in renal insufficiency)