Diuretics

Question 1

What occurs during Edematous State?

Answer 1

• NaCl reabsorption which allows for water retention & an increase of blood volume

Examples:
• Heart failure • Hepatic ascites • Nephrotic syndrome • Premenstrual edema

Question 2

What is a diuretic?

Answer 2

• Inhibitors of renal ion transporters that decrease the reabsorption of Na+ at different sites in the nephron (natriuretics)

Question 3

What are the Loop Diuretic and what is their function?

Answer 3

Furosemide

• aka ‘High-Ceiling’ diuretics
• Highest efficacy in removing Na+ & Cl- from body
• Act on ascending limb of Loop of Henle

Clinical applications:
• Diuretics of choice for managing edema associated with heart failure, hepatic or renal disease

• Hypertension (moderate-severe)

Question 4

What is the Loop Diuretic Mechanism of Action

Answer 4

• Act in the ascending limb of the loop of Henle
• Block NKCC2 Na+/Cl-/K+ cotransporter
• increase [Na+] & [Cl-] & [K+] in tubular fluid which leads to H20 excretion

Passive Increased Ca2+ excretion and Mg2+ excretion due to charge potential difference of the ROMK channel not working creating a negative potential in the lumen
• Decreased renal vascular resistance
• Increased renal blood flow
• Increased prostaglandin synthesis

Question 5

What are the Loop Diuretics adverse effects?

Answer 5

• Ototoxicity( messed up charge movement)
• Hyperuricemia( build up of uric acid in the blood because it uses the organic acid and base secreting system which is messed up)
• Acute hypovolemia
• K+ depletion
• Hypomagnesemia
• Allergic reactions

Question 6

Loop Diuretic Summary?

Answer 6

Increased Urinary Excretion: Na+ K+ Mg2+ Ca2+ Urine volume

Decreased Urinary Excretion: nothing

Question 7

What are the Thiazides and what is their clinical applications?

Answer 7

Hydrochlorothiazide / Chlorthalidone / Metolazone
• Act on distal tubule – all have equal maximum effects

Clinical applications:
• Hypertension (either alone or in combination with other antihypertensives)

• Heart failure (mild-moderate)
• Hypercalciuria (inhibit Ca2+ excretion, particularly useful for kidney stones)
• Diabetes insipidus (produce hyperosmolar urine)
• Premenstrual edema

Question 8

What are the thiazides mechanism of action?

Answer 8

Act predominantly in distal convoluted tubule

• Block NCCT Na+/Cl- cotransporter
• increase [Na+] & [Cl-] in tubular fluid which leads to H20 excretion
• Increased Na+ & Cl- excretion
• Increased K+ excretion and Increased Mg2+ excretion
• Decreased urinary Ca2+ excretion
• Decreased peripheral vascular resistance

Question 9

What are the adverse effects of Thiazides?

Answer 9

• Hypokalemia
• Hyponatremia
• Hyperuricemia
• Hyperglycemia
• Hyperlipidemia
• Hypersensitivity
• Sexual dysfunction

Question 10

Thiazide Summary?

Answer 10

Decreased Urinary Excretion: Ca2+
Increased Urinary Excretion: Na+ K+ Mg2+ Urine volume

Question 11

What are the K+ sparing drugs?

Aldosterone antagonists:

Answer 11

Aldosterone antagonists: Spironolactone / Eplerenone
• Used alone when there is excess aldosterone

• Potassium levels must be closely monitored
• Act mainly in collecting tubule

Clinical applications:
• Heart failure: used as an adjunct to prevent cardiac remodeling

• Hypertension (adjunct to standard therapy)
• Primary hyperaldosteronism (diagnosis & treatment)
• Edema (associated with excessive aldosterone excretion)

Question 12

What is the mechaism of action of K+ sparing drugs Aldosterone antagonists:?

Answer 12

• Act in collecting duct
• Antagonize aldosterone at intracellular cytoplasmic receptor sites (prevents translocation of receptor complex to the nucleus)
• Decreased Na+ reabsorption & decreased K+ excretion

Question 13

What is the K+ sparing Aldosterone antagonists adverse effects?

Answer 13

Aldosterone antagonists: Spironolactone, Eplerenone
• Gastric upset & peptic ulcers
• Endocrine effects (antiandrogen)
• Hyperkalemia
• Nausea, lethargy, mental confusion (rare)

Question 14

What are the K+ sparing Na+ Channel Inhibitors?

Answer 14

Na+ Channel Inhibitors: Amiloride / Triamterene
• Block Na+ transport channels ( decrease Na+/K+ exchange)

• Do not rely on presence of aldosterone
• Usually used in combination (not very efficacious)
• Can prevent K+ loss associated with thiazides & furosemide

Question 15

What is the K+ sparing Na+ Channel Inhibitors mechanism of action?

Answer 15

• Act in collecting duct

• Directly block epithelial sodium channel (ENaC) which
decreasing Na+/K+ exchange

•decreased Na+ reabsorption & decreased K+ excretion

Question 16

What are the K+ sparing Na+ Channel Inhibitors adverse effects?

Answer 16

• Hyperkalemia
• Hyponatremia
• Leg cramps
• GI upset
• Dizziness, pruritus, headache & minor visual changes

Question 17

What is the K+ sparing summary?

Answer 17

Aldosterone antagonists: Spironolactone / Eplerenone Na+ Channel Inhibitors: Amiloride / Triamterene
Decreased Urinary Excretion: K+
Increased Urinary Excretion: Na+ Urine volume

Question 18

What is the Carbonic Anhydrase inhibitor and its clinical applications?

Answer 18

Acetazolamide
• Act mainly in proximal tubular epithelial cells

• Less efficacious than other diuretics
• Often used for other pharmacological properties

Clinical applications:
• Glaucoma • Epilepsy (used alone or with other antiepileptics) • Mountain sickness prophylaxis • Metabolic alkalosis

Question 19

What is the Carbonic Anhydrase inhibitor mechanism of action?

Answer 19

• Inhibits intracellular carbonic anhydrase
• Decreases ability to exchange Na+ for H+
• Decreases activity of Na+/K+ ATPase (diuresis)
• HCO3- is retained in lumen (increasing urinary pH)

Question 20

What is the Carbonic Anhydrase inhibitor adverse effect?

Answer 20

• Metabolic acidosis
• Hyponatremia
• Hypokalemia
• Crystalluria
• Malaise, fatigue, depression, headache, GI upset, drowsiness, paresthesia

Question 21

What is the Carbonic Anhydrase inhibitor summary?

Answer 21

Decreased Urinary Excretion: nothing
Increased Urinary Excretion Na+ K+ HCO3- Urine volume

Question 22

What are the osmotic diuretics and their clinical applications?

Answer 22

Mannitol
• Raises osmotic pressure of the plasma thus draws
H20 out of body tissues & produces osmotic diuresis

• Does not effect Na+ excretion directly
• Only drug that truly increases urine volume

Clinical applications :
• Increase urine flow in patients with acute renal
failure • Reduce increased intracranial pressure &
treatment of cerebral edema • Promote excretion of toxic substances

Question 23

What are the adverse effects of osmotic diuretics?

Answer 23

• Extracellular water expansion (can lead to hyponatremia)
• Tissue dehydration

Contraindications: • Congestive Heart Failure • Pulmonary edema

Question 24

What are the ADH Anatgonist and their clinical applications/

Answer 24

• ADH controls permeability of collecting tubule to H20
• In the absence of ADH, tubule is H20 impermeable which leads to dilute urine

Conivaptan is an antagonist at V1 and V2 receptors

C linical applications :
• Euvolemic and hypervolemic hyponatremia • SIADH (syndrome of inappropriate ADH secretion) • Heart failure (only when benefits outweigh risks – safety not established)

Question 25

What are the adverse effects of ADH antagonists?

Answer 25

• Infusion site reactions
• Thirst
• Atrial fibrillation
• GI & electrolyte disturbances
• Nephrogenic diabetes insipidus

Contraindications: • Hypovolemic hyponatremia • Renal failure