Vilasinee Hirunpanich B.Pharm(Hon), M.Sc In Pharm (Pharmacology)
Outline of diuretic drugs Basic knowledge in anatomy and physiology Classification of diuretics
Classification of Diuretics Loop Diuretics Thiazides Diuretics K + -sparing diuretics Osmotic Diuretics Carbonic anhydrase inhibitors
1. Loop diuretics (high ceiling diuretics) block Na + -K + -2Cl - cotransport in the thick ascending limb of the loop of Henle high efficacy: 25% of filtrated solute is reabsorbed
Structure of loop diuretics
Mechanism of action of Loop of Henle
pharmacokinetic Rapidly absorbed Eliminate by renal secretion Torsemide (1h) is more rapidly than furosemide (Lasix ) (2-3 h) Duration 2-3 h (furosemide), 3-4 h(torsemide)
Adverse effects 1. Fluid and electrolytes imbalance Hyponatremia, Hypokalemia and hypomagnesia 2. H + lossmetabolic alkalosis 3. Ototoxicity ethacrynic most often
Adverse effects (cont) 4. Hyperuricemia 5. Hyperglycemia 6. Hypersensitivity to sulfonamide skin rash 7. Others: dehydration
Ototoxic drugs; aminoglycoside digitalis glycoside NSAIDs probenecid Litium anticoagulant Drug interaction
Clinical indications 1. Hypertension and CHF 2. Acute pulmonary edema 3. Other edematous conditions 3. Mild hyperkalemia (simultaneous NaCl and water) 4. I -, Br - intoxication
2.Thiazide Diuretics
Thiazide diuretics Sulfonamide and benzothiadiazide (thiazide) derivatives –Hydrochlorothiazide (HCTZ), indapamide, chlorthalidone, metolazone
Mechanism of action of thiazide diuretics
Mechanism of actions Increase Na +, Cl -, K +, Mg 2+ in urine ….water retention Some drug has vasodilator effect such as indapamide (Natrilix )
Pharmacokinetic Chlorothiazide is less lipid soluble and must given in large dose Indapamide is excreted primarily by the billiary system
Adverse effects 1.Fluid and electrolytes imbalance Hypokalemia Hyponatremia Hypercalcemia 2. hyperglycemia due to impaired pancreatic release of insulin 3.hyperlipidemia 4. allergic reaction 5. Other: weakness, fatigability
Drug interaction Decrease the effect of anticoagulant uricosuric agent sulfonylurea insulin Increase the effect of digitalis glycoside lithium Decrease the effect of thiazide NSAIDs bile acid sequestering probencid
Clinical indications Hypertension, CHF hepatic cirrhosis nephrolithiasis due to idiopathic hypercalcinuria nephrogenic diabetes insipidus Br - intoxicity
3. K + -sparing diuretics
K + sparing diuretics 1. Aldosterone antagonists 2. Inhibitor of renal epithelium Na + channel
Aldosterone antagonist Structure similar to aldosterone hormone Ex. spironolactone (synthesis steriod), eplerenone (spironolactone analog)
spironolactone specific antagonist prevent protein synthesis that required for Na + and K + transport increase Na + excretion and preserve of K + Potentcy is low and depend on aldosterone level
pharmacokinetic Spironolactone Onset and duration of action are determined by the kinetic of aldosterone response in target tissue. Slow onset (48 hr) Canrenone is the active metabolized which has very long t 12. than parent drug.
Adverse effects hyperkalemia …..life threatening Endocrine effects -gynecomastia -hirsutism -deepening voice - decrease libido
Pts using salicylate because inhibiting canrenone K + administration coadministration with thiazide or loop diuretic for edema (additive effect) hyperaldosteronism contraindication Clinical use
2. Inhibitor of renal epithelium Na + channel Triamterene amiloride
late distal tubules and collecting ducts block Na+ channel in the luminal membrane increase NaCl excretion and decrease K+ excretion Mechanism of action of K+- sparing diuretic
Adverse effect anemia: triamterene, folic antagonist kidney stone (triamterene is poorly soluble) ARF (acute renal failure) (combination of triamterene and indomethacin has been reported ) life-threatening: hyperkalemia
contraindication Renal failure other K + sparing diuretic ACEI K + supplement NSIADs
Co administration with other diuretic (additive effect) prevent depletion of intracellular K + store Clinical Use
Osmotic diuretics Properties 1. Freely filtered at the glomerulus 2. No reabsorption at the renal tubule 3. No pharmacological effects Glycerine, Isosorbide, Mannitol, Urea site of action: Proximal tubule and descending limb of Henle ’ s loop
Structure of osmotic diuretics
Mechanism of action Limit water reabsorption act as increase urine volume. increase renal blood flow
Pharmacokinetic Poorly absorbed so they must be given parenterally Mannitol is excreted by glomerular filtration within min
Adverse effects 1. Extracellular volume expansion Rapidly distributed in the extracellular compartment and extract water from the intracellular compartment 2. Dehydration 3. Nausea, vomiting, headache
Clinical Indications 1. To increase urine volume 2. Reduction of intracranial and intraocular pressure extract water from the eye and brain Glycerine: control intraocular pressure, pre/post operative ocular surgery Mannitol, urea: reduce cerebral edema before/after neuro-surgery
5. Carbonic anhydrase inhibitors Inhibit carbonic anhydrase enzyme at proximal tubule SO 2 NH 2 (sulfonamide) group is essential for activity. Acetazolamide (Diamox ), dichlorophenamide, ethoxalamide, methazolamide
Structure of carbonic anhydrase inhibitors
Mechanism of action of carbonic anhydrase inhibitors
1. increase the excretion of HCO 3 - (Urine alkalinization, pH 8) Increase Na +, K +, secretion 2. Metabolic acidosis 3. eye; decrease formation of aqueous humor 4. Paresthesia, Drowsiness, Somnolence
Pharmacokinetic Well absorbed after oral administration The effect of increased of HCO 3 - is apparent within 30 min. Maximal effect within 2 h Persist for 12 h after single dose Excrete by tubular secretion
Adverse effects 1. Hypersensitivity sulfonamide derivative (fever, rashes, bone marrow suppression) 2. Renal stone Ca 2+ salt are relatively insoluble at alkaline pH. 3. Metabolic acidosis and urine alkalinization 4. Renal potassium wasting 5. Others: drowsiness, paresthesia
Clinical indications 1. Glaucoma (decrease intraocular pressure) Dorzolamide, brinzolamide (topically use) 2. Urinary alkalinization increase the secretion of uric acid, weak acid drugs(aspirin) 3. Metabolic acidosis 4. Acute mountain sickness (24 h before ascent)
Loop diuretic& thiazide (different position) K + sparing diuretic& loop diuretic or thiazide (decrease ADR) Moduretic (amiloride + HCTZ) Dyazide (triamterene+HCTZ) Diuretic combination