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Diuretics (1/2)
Dr. C.Adithan
Professor of Pharmacology
Overview of 1st
lecture
• Definition
• Physiology of Urine formation and drugs modifying it
• Classification
• Pharmacology of Thiazide diuretics and Loop diuretics
• Mechanism of action
• Indications
• Dose
• Side effects
• Drug interactions
• Few MCQs
Kidney functions
Balance of electrolytes, Plasma volume, Acid Base
Activation of Vitamin D
Synthesis of Erythropoietin, Urokinase
Excretion of Urea, Uric acid, Creatinine etc.
 Primary Function: To maintain homeostasis (Excretion is a by product).
 Homeostasis is maintained by regulation of
 Water volume,
 Blood volume, and
 Interstitial fluid volume.
 First warning signs about kidneys dysfunction ????
Causes of Generalized Oedema
• Cardiac Cause: Congestive cardiac failure
• Renal Cause: Nephrotic syndrome
• Hepatic Cause: Cirrhosis of liver
• Nutritional cause: Malnutrition
• Allergic reaction
• Drug Induced
Diuretics
Drugs which cause a net loss of Na+ and
water in urine.
(Except Osmotic diuretics which do not cause Natriuresis
but produce diuresis)
• Causes increase in urine volume due to increased osmotic pressure
in lumen of renal tubule.
• Causes concomitant decrease in extra-cellular volume (blood
volume)
In order to understand the Diuretics,
we need to know the physiology of Urine formation
PHYSIOLOGY OF URINE FORMATION
Three major steps are involved.
1) Glomerular filtration.
2) Tubular Reabsorption &
3) Active tubular secretion.
Nephron can be divided
into four sites.
- Proximal tubule
- Henle’s loop
- DCT
- Collecting duct.
 Normal GFR is 125ml/min or
180 litres/day,
 Of which 99% gets reabsorbed
 Only 1.5 litres is excreted as urine.
IntroductionIntroduction
Proximal tubule
Freely permeable to water,
Active absorption of NaCl, NaHCO3, Glucose, Amino Acids, Organic Solutes
This is followed by passive absorption of water
Osmotic diuretics act at PCT and also on LH (descending limb) byOsmotic diuretics act at PCT and also on LH (descending limb) by
interposing a countervailing osmotic forceinterposing a countervailing osmotic force
Substance % of filtrate reabsorbed in PCT
•65-80% of the filtrate is reabsorbed
•Most reabsorption is coupled to sodium ion movement
Sodium and Water ~66%
Organic solutes e.g. glucose
and amino acids
~100%
Potassium ~65%
Urea ~50%
Phosphate ~80%
Loop of Henle (LH)
• Descending limb-
Permeable to water
• Thick ascending limb –
Impermeable to water but
Permeable to sodium by Na+
K+
2Cl-
Co transport
About 25% of filtered sodium is absorbed here
Loop diuretics act here and blocks the co-transporter.
Distal Convoluted Tubule
• In the Early distal tubule 10% of NaCl is reabsorbed by
Na-Cl symport transporter mechanism.
• On reaching the DCT almost 90% of sodium is already reabsorbed.
• Calcium excretion is regulated (Parathomone and Calcitriol,
increase absorption of calcium)
• Thiazides block Na-Cl symport transporter system.
• Thiazides (moderate efficacy) : block only 10% of Na reabsorption
Collecting Tubule and Collecting Duct
• Aldosterone- On membrane receptor and
cause sodium absorption by Na+
/H+
/ K+
Exchange
• ADH- Collecting tubular epithelium
permeable to water (Water enters through
aquaporin-2)
Nephron parts and their functions
SEGMENT FUNCTION
Glomerulus  Formation of glomerular filtrate
Proximal convoluted tubule (PCT)  Reabsorption: 100 % of glucose and amino acids
65% of Na+
/K+
/ Ca2+
, Mg2+
85% of NaHCO3 (activity of carbonic anhydrase enzyme)
 Iso-osmotic reabsorption of water
 Secretion and reabsorption of organic acids and bases, including uric acid and drugs
penicillin, probenecid and most diuretics
Thin descending limb of LH  Passive reabsorption of water
Thick ascending limb of LH  Active reabsorption: 25% of filtered Na+
/K+
/2Cl−;
 Secondary re-absorption of Ca2+
and Mg2+
Distal convoluted tubule (DCT) Active reabsorption of 4–8% of filtered Na+
Cl−;
Ca2+
reabsorption under parathyroid hormone control
Cortical collecting tubule (CCT) Na+
reabsorption (2–5%) coupled to K+ and H+ secretion (under Aldosterone)
Medullary collecting duct Water reabsorption under Vasopressin control
The relative magnitudes of
Na+
reabsorption at sites
• PT - 65%
• Asc LH - 25%
• DT - 9%
• CD - 1%.
Classifications of Diuretics
• Thiazide Diuretics:
a) Thiazides: Hydrochlorothiazide, Benzthiazide
b) Thiazide like: Chlorthalidone, Metolazone, Xipamide, Indapamide, Clopamide
• Loop Diuretics : Frusemide, Bumetanide, Torasemide, Ethacrynic acid
• Potassium Sparing Diuretics :
– Aldosterone Antagonist: Spironolactone, Canrenone, Eplerenone
– Directly Acting (Inhibition of Na+
channel): Triamterene, Amiloride
• Carbonic anhydrase inhibitors : Acetazolamide, Brinzolamide,
Dorzolamide
• Osmotic Diuretics : Mannitol, Glycerine, Urea, Isosorbide
1. Osmotic diuretics
2. Carbonic anhydrase inhibitors
3. Loop Diuretics (High ceiling)
4. Thiazide diuretics
5. Potassium sparing diuretics
1. Osmotic diuretics
2. Carbonic anhydrase
inhibitors
3. Loop diuretics
4. Thiazide diuretics
5. Potassium diuretics
Thiazide diuretics
»Mechanism of action
»Individual drugs
»Pharmacokinetics
»Indications
»Dose
»Side effects and Precautions
THIAZIDES AND THIAZIDE LIKE DIURETICSTHIAZIDES AND THIAZIDE LIKE DIURETICS
Renal
tubule
Peritubular
capillary
Thiazide Diuretics - Actions
• Acts on early part of distal tubules
• Inhibit Na+
-Cl-
symporter and reabsorption
• Increase NaCl excretion (5-10% Medium efficacy)
• Na+
exchanges with K+
in the DT  K+
loss 
Hypokalemia
• Not effective in very low GFR of < 30ml/min, may reduce
GFR further
– Metolazone  additional action on PT, effective at low GFR,
can be tried in refractory edema
Thiazide Diuretics - Other actions
• Hypotensive action
• reduce Ca++
excretion may ppt hypercalcemia in patients
of hyperparathyroidism, bone malignancy with metastasis
• Increase Mg++ excretion
• Hypochloremic alkalosis
• Hyperuricemia
• Hyperglycemia (inhibit insulin release ?)
• Hyperlipidemia (Cholesterol and TG)
Thiazide drugs
Chlorthalidone: Used only for hypertension, long acting (t1/2 – 50 hr)
Metolazone: Active even in low GFR. Additive with furosemide.
Used mainly for edema, occasionally for hypertension.
Xipamide: More strong diuretic. Used for edema and hypertension
More incidence of hypokalaemia and ventricular arrhythmia.
Indapamide: Extensively metabolized.
Very less amount reach kidney.
Used only as antihypertensive.
Pharmacokinetics
 Well absorbed orally
 Rapid acting- within 60 minutes.
 Thiazides are organic acids they are secreted into the
proximal tubules.
 Partly excreted by the hepatobiliary system.
Thiazides - Uses
1) Hypertension (Hydrochlorothiazide, Indapamide)
2) Edema : Cardiac, Hepatic, Renal
• Less efficacious than loop diuretic
• Useful for maintenance therapy
1) Hypercalciuria and renal Ca stones
2) Diabetes Insipidus (DI) (Nephrogenic responds better)
• Paradoxical use,
• MOA - ? Reduce GFR, ? More complete reabsorption in PT
• Convenient, Cheaper than Desmopressin in Neurogenic DI
• Amiloride is the DOC for Lithium induced nephrogenic DI
Metolazone useful even when GFR is as low as 15 ml/min
Thiazides Preparations
Drug Name Dose in mg (oral) Duration (hr) Cost (Rs)
per tablet
Chlorothiazide (1957) 500-2000 6-12
Hydrochlorothiazide 12.5-100 8-12 Rs.1.20 (25 mg)
Benzthiazide 25-100 12-18
Hydroflumethiazide 25-100 12
Chlorthalidone 50-100 48 Rs.2.40 (100 mg)
Metolazone 5-20 18 Rs. 6 – 10 (2.5 mg)
Xipamide, Clopamide 10-40 12-24 Rs.3.20 (20mg)
Indapamide (No CAI) 2.5-5 24-36 Rs. 8.00 (5 mg)
Thiazides -Adverse Effects
1) Hyperuricemia
2) Hyperglycemia
3) Hyperlipidemia
4) Hypercalcemia
5) Hyponatraemia
6) Hypokalemia
7) Hypomagnesemia
8) Hypochloremic alkalosis
9) Hypersensitivity
10) May ppt renal failure
11) Not safe in pregnancy
(all diuretics)
Thiazide diuretics - Summary
 Medium efficacy diuretics – Inhibit Na Cl symport
 Cause more hyperuricemia and hypokalaemia than
loop diuretics
 Not effective in patients with renal dysfunction
 Decrease Ca excretion. Increase Mg excretion
 Duration of action varies between 6 – 48 hours
Loop diuretics
Frusemide, Bumetanide, Torasemide, Ethacrynic acid
 Mechanism of action
 Individual drugs
 Pharmacokinetics
 Indications
 Dose
 Side effects and Precautions
 Drug interactions
Comparison of Loop and Thiazide diuretics
Loop diuretics
 Sulfonamide derivative
 Most popular powerful loop diuretic.
 Generally cause greater diuresis than thiazides; used
when they are insufficient
 Can enhance Ca2+
and Mg2+
excretion
 Enter tubular lumen via proximal tubular secretion
(unusual secretion segment) because body treats them
as a toxic drug
 Drugs that block this secretion reduces efficacy
(e.g. probenecid)
Mechanism of action
 Frusemide blocks the Na+
, K+
, 2Cl-
symporter in the ascending
limb of the LH. Inhibit NaCl reabsorption
 Enhance the excretion of K+
, Ca++
and Mg++
(but Ca++
is reabsorbed
in the distal tubule).
 Prolonged use can cause hypomagnesemia.
 Increase reabsorption of uric acid
 Vasodilation in renal vasculature and increase renal blood flow.
Intravenous frusemide causes vasodilatation and
reduces left ventricular filling pressure
High ceiling diuretics (Loop diuretics)
High ceiling diuretics (Loop diuretics)
Furosemide –Rapid and short acting, Can be given IM, IV and oral
Given Intravenously (10 mg) acts in 2-5 minutes;
Orally (40 mg) it takes 20-40 minutes, Can produce upto 10 L of urine/day
Effective even in patients with severe renal failure
Cause peripheral venous dilation and relieves LVF
Cause Ca and Mg excretion through urine
Hyperuricemia and hypokalemia
May cause ototoxicity
Dose: 20 – 80 mg OD in morning
High ceiling diuretics (Loop diuretics)
Bumetanide – similar to furosemide.
40 times more potent, Can respond in patients resistant to furosemide
Can be used in patients allergic to furosemide
Better tolerated because the adverse effects like hypokalemia,
ototoxicity, hyperglycaemia and hyperuricaemia are milder but may
cause myopathy
Used in CHF and pulmonary edema
Dose: 1 – 5 mg OD in morning
High ceiling diuretics (Loop diuretics)
Torasemide – also called torsemide
Similar to furosemide – 3 times more potent
Slightly longer acting
Used in edema and hypertension
Uses - Loop diuretics
 Oedema
 Acute renal failure, In chronic renal failure large doses are needed.
 Acute pulmonary oedema
 Cerebral oedema
 Forced diuresis: In poisoning due to fluoride, iodide and bromide
respond to furosemide with saline infusion.
 Hypertension: With renal impairment
Thiazides are preferred diuretics in primary hypertension.
 Acute hypercalcemia and hyperkalemia:
Loop diuretics: Adverse effects
 Hypokalaemia and metabolic alkalosis
Hypokalaemia should be particularly prevented in post MI patients
and in patients who are receiving digitalis.
 Hyponatraemia, hypovolaemia, hypotension and dehydration,
 Hypocalcaemia
 Hypomagnesaemia
 Hyperuricaemia, Hyperglycaemia
 Ototoxicity
 Allergic reactions like skin rashes can occur.
Remember 6 Hypo, 2 Hyper & 1 O
Loop & Thiazide drugs
Interactions
Potentiate antihypertensive drugs
Hypokalaemia by diuretics – cause digitalis toxicity,
arrhythmias
Furosemide with aminoglycosides – ototoxicity and
nephrotoxic
Cotrimoxazole with diuretics – thrombocytopenia
NSAIDS with furosemide – blunt action of furosemide
MCQ 1s
A 50-year old man has a history of frequent episodes of renal
colic with high calcium with renal stone. The most useful diuretic
in the treatment of recurrent calcium stone is
a) Furosemide
b) Spironolactone
c) Hydrochlorothiazide
d) Acetazolamide
MCQ 2s
An elderly patient with h/o of heart disease and having difficulty
in breathing. She was diagnosed to have pulmonary oedema.
Which of the following drug is indicated?
a) Spironolactone.
b) Furosemide
c) Acetazolamide.
d) Chlorthalidone
e) Hydrochlorothiazide.
MCQ 3s
A 60 years old male patient with kidney stone has been placed
on a diuretic to decrease calcium excretion. After few weeks, he
develops an attack of gout. Which diuretic was he taking?
a) Furosemide
b) Hydrochlorothiazide.
c) Spironolactone.
d) Triamterene.
MCQ 4s
A 65 years old hypertensive patient was treated with a thiazide.
Her B.P was well controlled and reads at 120/76 mm Hg, After few
months of medication, she complains of being tired and weak. An
analysis of the blood may show low values for
a) Calcium
b) Uric acid
c) Potassium.
d) Sodium.
MCQ 5
Indomethacin can antagonize the
diuretic action of furosemide by
 
a) Blocking the ascending limb of loop of Henle
b) Enhancing salt and water reabsorption in distal tubules
c) Increasing aldosterone secretion
d) Preventing prostaglandin mediated intrarenal
hemodynamic action
Useful suggestions
 Obtain baseline values
 Monitor periodically
lab values, weight, current level of urine output
Electrolytes, especially potassium, sodium, and chloride
BUN, serum creatinine, uric acid, and blood-glucose levels
for side effects orthostatic hypotension, hypokalemia, hyponatremia,
polyuria
 Assess for circulatory collapse, dysrhythmias, hearing loss, renal failure, and anemia
 Advice to take diuretics in the morning, change position slowly, monitor weight
 If necessary advice to take potassium supplements, and consume potassium–rich foods
(e.g, tender coconut)
To be continued in the next class
Thank you
To be continued in the next class

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Lecture 1 adithan diuretics july 22, 2016 mgmcri

  • 2. Overview of 1st lecture • Definition • Physiology of Urine formation and drugs modifying it • Classification • Pharmacology of Thiazide diuretics and Loop diuretics • Mechanism of action • Indications • Dose • Side effects • Drug interactions • Few MCQs
  • 3. Kidney functions Balance of electrolytes, Plasma volume, Acid Base Activation of Vitamin D Synthesis of Erythropoietin, Urokinase Excretion of Urea, Uric acid, Creatinine etc.  Primary Function: To maintain homeostasis (Excretion is a by product).  Homeostasis is maintained by regulation of  Water volume,  Blood volume, and  Interstitial fluid volume.  First warning signs about kidneys dysfunction ????
  • 4. Causes of Generalized Oedema • Cardiac Cause: Congestive cardiac failure • Renal Cause: Nephrotic syndrome • Hepatic Cause: Cirrhosis of liver • Nutritional cause: Malnutrition • Allergic reaction • Drug Induced
  • 5. Diuretics Drugs which cause a net loss of Na+ and water in urine. (Except Osmotic diuretics which do not cause Natriuresis but produce diuresis) • Causes increase in urine volume due to increased osmotic pressure in lumen of renal tubule. • Causes concomitant decrease in extra-cellular volume (blood volume)
  • 6. In order to understand the Diuretics, we need to know the physiology of Urine formation
  • 7. PHYSIOLOGY OF URINE FORMATION Three major steps are involved. 1) Glomerular filtration. 2) Tubular Reabsorption & 3) Active tubular secretion. Nephron can be divided into four sites. - Proximal tubule - Henle’s loop - DCT - Collecting duct.  Normal GFR is 125ml/min or 180 litres/day,  Of which 99% gets reabsorbed  Only 1.5 litres is excreted as urine.
  • 9. Proximal tubule Freely permeable to water, Active absorption of NaCl, NaHCO3, Glucose, Amino Acids, Organic Solutes This is followed by passive absorption of water Osmotic diuretics act at PCT and also on LH (descending limb) byOsmotic diuretics act at PCT and also on LH (descending limb) by interposing a countervailing osmotic forceinterposing a countervailing osmotic force Substance % of filtrate reabsorbed in PCT •65-80% of the filtrate is reabsorbed •Most reabsorption is coupled to sodium ion movement Sodium and Water ~66% Organic solutes e.g. glucose and amino acids ~100% Potassium ~65% Urea ~50% Phosphate ~80%
  • 10. Loop of Henle (LH) • Descending limb- Permeable to water • Thick ascending limb – Impermeable to water but Permeable to sodium by Na+ K+ 2Cl- Co transport About 25% of filtered sodium is absorbed here Loop diuretics act here and blocks the co-transporter.
  • 11. Distal Convoluted Tubule • In the Early distal tubule 10% of NaCl is reabsorbed by Na-Cl symport transporter mechanism. • On reaching the DCT almost 90% of sodium is already reabsorbed. • Calcium excretion is regulated (Parathomone and Calcitriol, increase absorption of calcium) • Thiazides block Na-Cl symport transporter system. • Thiazides (moderate efficacy) : block only 10% of Na reabsorption
  • 12. Collecting Tubule and Collecting Duct • Aldosterone- On membrane receptor and cause sodium absorption by Na+ /H+ / K+ Exchange • ADH- Collecting tubular epithelium permeable to water (Water enters through aquaporin-2)
  • 13. Nephron parts and their functions SEGMENT FUNCTION Glomerulus  Formation of glomerular filtrate Proximal convoluted tubule (PCT)  Reabsorption: 100 % of glucose and amino acids 65% of Na+ /K+ / Ca2+ , Mg2+ 85% of NaHCO3 (activity of carbonic anhydrase enzyme)  Iso-osmotic reabsorption of water  Secretion and reabsorption of organic acids and bases, including uric acid and drugs penicillin, probenecid and most diuretics Thin descending limb of LH  Passive reabsorption of water Thick ascending limb of LH  Active reabsorption: 25% of filtered Na+ /K+ /2Cl−;  Secondary re-absorption of Ca2+ and Mg2+ Distal convoluted tubule (DCT) Active reabsorption of 4–8% of filtered Na+ Cl−; Ca2+ reabsorption under parathyroid hormone control Cortical collecting tubule (CCT) Na+ reabsorption (2–5%) coupled to K+ and H+ secretion (under Aldosterone) Medullary collecting duct Water reabsorption under Vasopressin control
  • 14. The relative magnitudes of Na+ reabsorption at sites • PT - 65% • Asc LH - 25% • DT - 9% • CD - 1%.
  • 15. Classifications of Diuretics • Thiazide Diuretics: a) Thiazides: Hydrochlorothiazide, Benzthiazide b) Thiazide like: Chlorthalidone, Metolazone, Xipamide, Indapamide, Clopamide • Loop Diuretics : Frusemide, Bumetanide, Torasemide, Ethacrynic acid • Potassium Sparing Diuretics : – Aldosterone Antagonist: Spironolactone, Canrenone, Eplerenone – Directly Acting (Inhibition of Na+ channel): Triamterene, Amiloride • Carbonic anhydrase inhibitors : Acetazolamide, Brinzolamide, Dorzolamide • Osmotic Diuretics : Mannitol, Glycerine, Urea, Isosorbide
  • 16. 1. Osmotic diuretics 2. Carbonic anhydrase inhibitors 3. Loop Diuretics (High ceiling) 4. Thiazide diuretics 5. Potassium sparing diuretics 1. Osmotic diuretics 2. Carbonic anhydrase inhibitors 3. Loop diuretics 4. Thiazide diuretics 5. Potassium diuretics
  • 17. Thiazide diuretics »Mechanism of action »Individual drugs »Pharmacokinetics »Indications »Dose »Side effects and Precautions
  • 18. THIAZIDES AND THIAZIDE LIKE DIURETICSTHIAZIDES AND THIAZIDE LIKE DIURETICS Renal tubule Peritubular capillary
  • 19. Thiazide Diuretics - Actions • Acts on early part of distal tubules • Inhibit Na+ -Cl- symporter and reabsorption • Increase NaCl excretion (5-10% Medium efficacy) • Na+ exchanges with K+ in the DT  K+ loss  Hypokalemia • Not effective in very low GFR of < 30ml/min, may reduce GFR further – Metolazone  additional action on PT, effective at low GFR, can be tried in refractory edema
  • 20. Thiazide Diuretics - Other actions • Hypotensive action • reduce Ca++ excretion may ppt hypercalcemia in patients of hyperparathyroidism, bone malignancy with metastasis • Increase Mg++ excretion • Hypochloremic alkalosis • Hyperuricemia • Hyperglycemia (inhibit insulin release ?) • Hyperlipidemia (Cholesterol and TG)
  • 21. Thiazide drugs Chlorthalidone: Used only for hypertension, long acting (t1/2 – 50 hr) Metolazone: Active even in low GFR. Additive with furosemide. Used mainly for edema, occasionally for hypertension. Xipamide: More strong diuretic. Used for edema and hypertension More incidence of hypokalaemia and ventricular arrhythmia. Indapamide: Extensively metabolized. Very less amount reach kidney. Used only as antihypertensive.
  • 22. Pharmacokinetics  Well absorbed orally  Rapid acting- within 60 minutes.  Thiazides are organic acids they are secreted into the proximal tubules.  Partly excreted by the hepatobiliary system.
  • 23. Thiazides - Uses 1) Hypertension (Hydrochlorothiazide, Indapamide) 2) Edema : Cardiac, Hepatic, Renal • Less efficacious than loop diuretic • Useful for maintenance therapy 1) Hypercalciuria and renal Ca stones 2) Diabetes Insipidus (DI) (Nephrogenic responds better) • Paradoxical use, • MOA - ? Reduce GFR, ? More complete reabsorption in PT • Convenient, Cheaper than Desmopressin in Neurogenic DI • Amiloride is the DOC for Lithium induced nephrogenic DI Metolazone useful even when GFR is as low as 15 ml/min
  • 24. Thiazides Preparations Drug Name Dose in mg (oral) Duration (hr) Cost (Rs) per tablet Chlorothiazide (1957) 500-2000 6-12 Hydrochlorothiazide 12.5-100 8-12 Rs.1.20 (25 mg) Benzthiazide 25-100 12-18 Hydroflumethiazide 25-100 12 Chlorthalidone 50-100 48 Rs.2.40 (100 mg) Metolazone 5-20 18 Rs. 6 – 10 (2.5 mg) Xipamide, Clopamide 10-40 12-24 Rs.3.20 (20mg) Indapamide (No CAI) 2.5-5 24-36 Rs. 8.00 (5 mg)
  • 25. Thiazides -Adverse Effects 1) Hyperuricemia 2) Hyperglycemia 3) Hyperlipidemia 4) Hypercalcemia 5) Hyponatraemia 6) Hypokalemia 7) Hypomagnesemia 8) Hypochloremic alkalosis 9) Hypersensitivity 10) May ppt renal failure 11) Not safe in pregnancy (all diuretics)
  • 26. Thiazide diuretics - Summary  Medium efficacy diuretics – Inhibit Na Cl symport  Cause more hyperuricemia and hypokalaemia than loop diuretics  Not effective in patients with renal dysfunction  Decrease Ca excretion. Increase Mg excretion  Duration of action varies between 6 – 48 hours
  • 27. Loop diuretics Frusemide, Bumetanide, Torasemide, Ethacrynic acid  Mechanism of action  Individual drugs  Pharmacokinetics  Indications  Dose  Side effects and Precautions  Drug interactions
  • 28. Comparison of Loop and Thiazide diuretics
  • 29. Loop diuretics  Sulfonamide derivative  Most popular powerful loop diuretic.  Generally cause greater diuresis than thiazides; used when they are insufficient  Can enhance Ca2+ and Mg2+ excretion  Enter tubular lumen via proximal tubular secretion (unusual secretion segment) because body treats them as a toxic drug  Drugs that block this secretion reduces efficacy (e.g. probenecid)
  • 30. Mechanism of action  Frusemide blocks the Na+ , K+ , 2Cl- symporter in the ascending limb of the LH. Inhibit NaCl reabsorption  Enhance the excretion of K+ , Ca++ and Mg++ (but Ca++ is reabsorbed in the distal tubule).  Prolonged use can cause hypomagnesemia.  Increase reabsorption of uric acid  Vasodilation in renal vasculature and increase renal blood flow. Intravenous frusemide causes vasodilatation and reduces left ventricular filling pressure
  • 31. High ceiling diuretics (Loop diuretics)
  • 32. High ceiling diuretics (Loop diuretics) Furosemide –Rapid and short acting, Can be given IM, IV and oral Given Intravenously (10 mg) acts in 2-5 minutes; Orally (40 mg) it takes 20-40 minutes, Can produce upto 10 L of urine/day Effective even in patients with severe renal failure Cause peripheral venous dilation and relieves LVF Cause Ca and Mg excretion through urine Hyperuricemia and hypokalemia May cause ototoxicity Dose: 20 – 80 mg OD in morning
  • 33. High ceiling diuretics (Loop diuretics) Bumetanide – similar to furosemide. 40 times more potent, Can respond in patients resistant to furosemide Can be used in patients allergic to furosemide Better tolerated because the adverse effects like hypokalemia, ototoxicity, hyperglycaemia and hyperuricaemia are milder but may cause myopathy Used in CHF and pulmonary edema Dose: 1 – 5 mg OD in morning
  • 34. High ceiling diuretics (Loop diuretics) Torasemide – also called torsemide Similar to furosemide – 3 times more potent Slightly longer acting Used in edema and hypertension
  • 35. Uses - Loop diuretics  Oedema  Acute renal failure, In chronic renal failure large doses are needed.  Acute pulmonary oedema  Cerebral oedema  Forced diuresis: In poisoning due to fluoride, iodide and bromide respond to furosemide with saline infusion.  Hypertension: With renal impairment Thiazides are preferred diuretics in primary hypertension.  Acute hypercalcemia and hyperkalemia:
  • 36. Loop diuretics: Adverse effects  Hypokalaemia and metabolic alkalosis Hypokalaemia should be particularly prevented in post MI patients and in patients who are receiving digitalis.  Hyponatraemia, hypovolaemia, hypotension and dehydration,  Hypocalcaemia  Hypomagnesaemia  Hyperuricaemia, Hyperglycaemia  Ototoxicity  Allergic reactions like skin rashes can occur. Remember 6 Hypo, 2 Hyper & 1 O
  • 37. Loop & Thiazide drugs Interactions Potentiate antihypertensive drugs Hypokalaemia by diuretics – cause digitalis toxicity, arrhythmias Furosemide with aminoglycosides – ototoxicity and nephrotoxic Cotrimoxazole with diuretics – thrombocytopenia NSAIDS with furosemide – blunt action of furosemide
  • 38. MCQ 1s A 50-year old man has a history of frequent episodes of renal colic with high calcium with renal stone. The most useful diuretic in the treatment of recurrent calcium stone is a) Furosemide b) Spironolactone c) Hydrochlorothiazide d) Acetazolamide
  • 39. MCQ 2s An elderly patient with h/o of heart disease and having difficulty in breathing. She was diagnosed to have pulmonary oedema. Which of the following drug is indicated? a) Spironolactone. b) Furosemide c) Acetazolamide. d) Chlorthalidone e) Hydrochlorothiazide.
  • 40. MCQ 3s A 60 years old male patient with kidney stone has been placed on a diuretic to decrease calcium excretion. After few weeks, he develops an attack of gout. Which diuretic was he taking? a) Furosemide b) Hydrochlorothiazide. c) Spironolactone. d) Triamterene.
  • 41. MCQ 4s A 65 years old hypertensive patient was treated with a thiazide. Her B.P was well controlled and reads at 120/76 mm Hg, After few months of medication, she complains of being tired and weak. An analysis of the blood may show low values for a) Calcium b) Uric acid c) Potassium. d) Sodium.
  • 42. MCQ 5 Indomethacin can antagonize the diuretic action of furosemide by   a) Blocking the ascending limb of loop of Henle b) Enhancing salt and water reabsorption in distal tubules c) Increasing aldosterone secretion d) Preventing prostaglandin mediated intrarenal hemodynamic action
  • 43. Useful suggestions  Obtain baseline values  Monitor periodically lab values, weight, current level of urine output Electrolytes, especially potassium, sodium, and chloride BUN, serum creatinine, uric acid, and blood-glucose levels for side effects orthostatic hypotension, hypokalemia, hyponatremia, polyuria  Assess for circulatory collapse, dysrhythmias, hearing loss, renal failure, and anemia  Advice to take diuretics in the morning, change position slowly, monitor weight  If necessary advice to take potassium supplements, and consume potassium–rich foods (e.g, tender coconut)
  • 44. To be continued in the next class
  • 45. Thank you To be continued in the next class