Diuretics Flashcards
Furosemide (Lasix): Most frequently prescribed loop diuretic
- Mechanism of action
- ActsonascendingloopofHenletoblockreabsorption
- Pharmacokinetics
- Rapidonset(PO60min;IV5min)
- Therapeutic uses
- Pulmonaryedema • Edematousstates • Hypertension
- Adverse effects
- Hyponatremia, hypochloremia, and dehydration
- Hypotension
- Lossofvolume
- Relaxationofvenoussmoothmuscle • Hypokalemia
- Ototoxicity
- Adverse effects
- Hyperglycemia
- Hyperuricemia
- Use in pregnancy
- Impact on lipids, calcium, and magnesium
Drug interactions • Digoxin • Ototoxic drugs • Potassium-sparing diuretics • Lithium-lowers sodium. • Antihypertensive agents • Nonsteroidal antiinflammatory drugs-increases effects of lasix. • Preparations, dosage, and administration • Oral • Parenteral
Other High-Ceiling (Loop) Diuretics
Ethacrynic acid [Edecrin] • Bumetanide [Bumex]
• Torsemide [Demadex]
• All can cause:
• Ototoxicity, hypovolemia, hypotension, hypokalemia, hyperuricemia, hyperglycemia, and disruption of lipid metabolism
Thiazides and Related Diuretics
• Also known as benzothiadiazides
• Effects similar to those of loop diuretics
• Increase renal excretion of sodium, chloride, potassium, and water
• Elevate levels of uric acid and glucose
• Maximum diuresis is considerably lower than
with loop diuretics
• Not effective when urine flow is scant (unlike with loop diuretics)
Hydrochlorothiazide [HydroDIURIL]
- Most widely used
- Action: Early segment distal convoluted tubule
- Peaks in 4 to 6 hours
- Therapeutic uses
- Essentialhypertension
- Edema
- PostmenapausalOsteoporosis-It helps with reabsorption of calcium.
• Adverse effects • Hyponatremia, hypochloremia, and dehydration • Hypokalemia • Use in pregnancy and lactation • Hyperglycemia • Hyperuricemia • Impact on lipids, calcium, and magnesium NO OTOTOXICITY.
• Drug interactions
• Digoxin
• Augments effects of hypertensive medications
• Can reduce renal excretion of lithium (leading to
accumulation)
• NSAIDs may blunt diuretic effect
• Can be combined with ototoxic agents without increased risk of hearing loss
Potassium-Sparing Diuretics
Useful responses
• Modest increase in urine production
• Substantial decrease in potassium excretion
• Rarely used alone for therapy • Aldosterone antagonist
• Spironolactone
• Nonaldosterone antagonists • Triamterene
• Amiloride
Spironolactone [Aldactone]
- Mechanism of action
- Blocks aldosterone in the distal nephron
- Retention of potassium
- Increased excretion of sodium
- Therapeutic uses • Hypertension
- Edematous states
- Heart failure (decreases mortality in severe failure) • Primary hyperaldosteronism
- Premenstrual syndrome
- Polycystic ovary syndrome
- Acne in young women
- Adverse effects • Hyperkalemia
- Benign and malignant tumors • Endocrine effects
- Drug interactions
- Thiazide and loop diuretics
- Agents that raise potassium levels
Triamterene [Dyrenium]
Potassium sparing diuretic
Mechanism of action • Disrupts sodium-potassium exchange in the distal nephron • Direct inhibitor of the exchange mechanism • Decreases sodium reuptake • Inhibits ion transport • Therapeutic uses • Hypertension • Edema
- Adverse effects • Hyperkalemia
- Leg cramps • Nausea
- Vomiting
- Dizziness
- Blood dyscrasias (rare)
Amiloride [Midamor]
Potassium Sparing Diuretic
• Mechanism of action
• Blocks sodium-potassium exchange in the distal
nephron
• Therapeutic use
• Counteracts potassium loss caused by more powerful diuretics
• Adverse effects • Hyperkalemia
• Drug interaction
• ACE inhibitors; other drugs with hyperkalemia
Osmotic Diuretic
Mannitol [Osmitrol]
• Promotes diuresis by creating osmotic force within
lumen of the nephron • Pharmacokinetics
• Drugmustbegivenparenterally • Therapeutic uses
• Prophylaxisofrenalfailure
• Reductionofintracranialpressure • Reductionofintraocularpressure
- Adverse effects • Edema
- Headache
- Nausea
- Vomiting
- Fluid and electrolyte imbalance
