DIURETICS Part 1 Prof. Hanan Hagar Pharmacology Unit.
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Transcript of DIURETICS Part 1 Prof. Hanan Hagar Pharmacology Unit.
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DIURETICSPart 1
Prof. Hanan Hagar
Pharmacology Unit
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Diuretics
Are drugs that increase renal excretion of sodium and water resulting in increase in urine volume.
Diuresis: is the process of excretion of water in the urine.
Natriuresis: is the process of excretion of sodium in the urine .
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Mechanism of actions of diuretics
Most diuretics act by interfering with the normal sodium reabsorption by the renal tubules resulting into sodium and water excretion.
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Sites for water and electrolytes transport
along the nephron
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Normal Sodium Re-absorption
Nephron Segment Filtered Na+ re-absorbed
Proximal convoluted tubules
85 %
As NaHCO3
AscendingLoop of Henle
20-30%Active reabsorption
Na, K, Cl
Distal convoluted tubules
5-10%Active reabsorption
Na, Cl
Cortical Collecting Tubules
5%Na reabsorptionK & H secretion
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Site of action of diureticssegment Function transporter
Proximal convoluted tubules
Re-absorption of 100% glucose and amino acids, 66% Na, K, Ca, Mg; 85% NaHCO3
Na/H transporterCarbonic anhydrase enzyme
Proximal Straight Tubules
Secretion and re-absorption of organic acids and bases
Acid & base transporter
Thick ascending loop
Active reabsorption 25% Na, K, Cl
Secondary reabsorption Ca, Mg
Na/K/2Cl transporter
Distal convoluted tubules
Active tubular reabsorption of 5%Na, Cl, Ca
Na and Cl cotransporter
Collecting tubules
Na reabsorptionK & H secretion
Na channelsK & H transporter
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Normal Sodium Re-absorptionNephron Segment
Na+ Transporter Filtered Na+ re-absorbed
Proximal convoluted
tubules
Na+/H+ transporter Carbonic anhydrase
enzyme
85 %
As NaHCO3
Ascending
Loop of Henle
Na+/K+/2Cl- cotransporter
20-30%Active
reabsorption Na, K, Cl
Distal convoluted
tubules
Na+/Cl-
transporter
5-10%Active
reabsorption Na, Cl
Cortical Collecting Tubules
Na+ channelAldosterone
Antidiuretic hormone
5%Na reabsorptionK & H secretion
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Sites of action for diuretics
Target molecules for diuretics are
carriers or transporters in luminal
membrane of renal tubular cells
required for tubular reabsorption of
sodium from filtrate back into blood.
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Types of diuretics
Nephron Segment
Na+
Transporter Diuretics
Proximal convoluted
tubules
Na+/H+ transporter
Carbonic anhydrase enzyme
Carbonic anhydrase inhibitors
Ascending
Loop of Henle
Na+/K+/2Cl-
cotransporterLoop diuretics
Distal convoluted
tubules
Na+/Cl-
transporter
Thiazide diuretics
Cortical Collecting Tubules
Na+ channel
Aldosterone
K-sparing diuretics
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Site of action of diureticssegment Function transporter DiureticsProximal convoluted tubules
Re-absorption of 66% Na, K, Ca, Mg, 100% glucose and amino acids; 85% NaHCO3
Na/H transporter, Carbonic anhydrase enzyme
Carbonic anhydrase inhibitors
Proximal Straight Tubules
Secretion and re-absorption of organic acids and bases
Acid & base transporter
None
Thick ascending loop
Active reabsorption 25% Na, K, Cl
Secondary reabsorption Ca, Mg
Na/K/2Cl transporter
Loop diuretics
Distal convoluted tubules
Active tubular reabsorption of 5%Na, Cl, Ca
Na and Cl cotransporter
Thiazide diuretics
Collecting tubules
Na reabsorptionK & H secretion
Na channelsK & H transporter
K-sparing diuretics
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Classification of diuretics
Carbonic anhydrase inhibitors Loop diuretics Thiazide diuretics Potassium-sparing diuretics Osmotic diuretics
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Diuretics
Indirectly-acting Directly-acting
K-losingK-sparing
Aldosterone-antagonists CA Inhibitors
Triamterine & amiloride
Loop-diuretics
Thiazides
Osmotic diuretics
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CARBONIC ANHYDRASE
Luminal membrane Basolateral membrane
Lumen Blood
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ASCENDING LOOP OF HENLE
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Distal convoluted tubules (DCT)
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COLLECTING TUBULES (CT)
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COLLECTING TUBULES (CT)
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Carbonic Anhydrase Inhibitors
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Carbonic Anhydrase Inhibitors
Acetazolamide – dorzolamide
Mechanism of action:Inhibits carbonic anhydrase (CA) enzyme in PCT thus interferes with NaHCO3 re-absorption and causes diuresis.
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Carbonic Anhydrase Inhibitors
CA is required for reversible reaction,
in which CO2 +H2O H2CO3
H+ HCO3-
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Luminal membraneBasolateral membrane
Lumen Blood
Proximal tubules
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Carbonic Anhydrase Inhibitors
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Pharmacokinetics:
given orally once a day.
Onset of action is rapid (30
min).
Duration of action (12 h).
Excreted by active secretion in
proximal convoluted tubules.
Produces alkaline urine
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Pharmacological actions:
↑ urine volume
↑ urinary excretion of sodium,
potassium , bicarbonate (alkaline
urine).
Promotes K+ excretion by ↑the load
of Na+ delivered to the distal tubules.
Metabolic acidosis.
↑ urinary phosphate excretion.
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Carbonic anhydrase inhibitors
Have weak diuretic properties.
(decreases after several days ;
self-limiting as the blood
bicarbonate falls).
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Therapeutic uses:
Open angle glaucomacarbonic anhydrase inhibitors cause
↓ IOP by reducing aqueous humor formation in ciliary body of eye.
As prophylactic therapy, in acute mountain sickness ↓ CSF of brain
given nightly 5 days before the ascent ↓ weakness,
breathlessness , dizziness, nausea, cerebral & pulmonary oedema.
IOP: Intraocular pressure; CSF: Cerebrospinal fluid
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Therapeutic uses:
Epilepsy (decrease cerebrospinal fluid,
CSF).
Urinary alkalinization to enhance renal
excretion of acidic substances
(cysteine in cystinuria).
Hyperphosphatemia
Metabolic alkalosis
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Adverse effects:
Hypokalemia (potassium loss).
Metabolic acidosis.
Renal stone formation (calcium
phosphate stones).
Hypersensitivity reaction.
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Dorzolamide
Is a carbonic anhydrase inhibitor
Used topically for treatment of open-
angle glaucoma.
no diuretic or systemic side effects
(Why?)
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60–80%
Osmotic diuretics
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Osmotic diuretics
Mannitol
Poorly absorbed
If given orally osmotic diarrhea
Given intravenously.
Not metabolized
Excreted by glomerular filtration without
being re-absorbed or secreted within 30-
60 min
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Mannitol
Acts in proximal tubules & descending
loop of Henle by osmotic effect.
Mannitol, IV, water excretion with
relatively less effect on Na+ (water
diuresis).
Expand the extracellular fluid volume,
decrease blood viscosity, and inhibit
renin release, ↑renal blood flow.
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Mannitol increases urine output by osmosis, drawing water out of cells and into the blood stream.
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Therapeutic Uses:
Acute renal failure due to shock or trauma (maintain urine flow- preserve kidney function).
In acute drug poisoning: To eliminate drugs that are reabsorbed from the renal tubules e.g. salicylates, barbiturates.
To intracranial & intraocular pressure before ophthalmic or brain procedures (cerebral edema).
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Adverse Effects:
Headache, nausea, vomiting
Extracellular volume expansion, complicates heart failure & pulmonary oedema
Excessive use dehydration & hypernatraemia (Adequate water replacement is required).