Diuretics

Question 1

Classes of Diuretics

Answer 1

Cardiovascular Diuretics

Physiological Diuretics

Osmotic Diuretics

Loop (High Ceiling) Diuretics

Thiazide Diuretics

Potassium Sparing Diuretics

Carbonic Anhydrase Inhibitors

Question 2

Physiologic Diuretics

Answer 2

Not diuretic by definition, but have diuretic effect

Question 3

Major effects of Alpha 1 adrenoceptors

Answer 3

Vasoconstriction

Increased peripheral resistance

Increased blood pressure

Mydrasis

Increased closure of internal sphincter of the bladder

Question 4

Therapeutic uses of osmotic diuretics

Answer 4

Treatment of cerebral edema

Treatment of glaucoma

Treatment of acute renal failure

Mobilization of edema fluid

Used in patients with drug overdose

Question 5

Examples of Carbonic Anhydrase Inhibitors

Answer 5

Acetazolamide

Methazolamide

Dorzolamide and Brinzolamide (Topical Ophthalmic)

Question 6

Adverse effects of Thiazide diuretics

Answer 6

Electrolyte imbalances

Hyperglycemia

Hypersensitivity reactions

Hyperlipidema

Question 7

Most effective diuretics are

Answer 7

Loop diuretics

________________________________

Inhibit the most reabsorption of Na acting on ALoH

Question 8

Diuretic efficacy of Spironolactone depends on

Answer 8

Levels of endogenous aldosterone

Question 9

Pharmacokinetics of Triamterine and Amiloride

Answer 9

Admistered orally

Amiloride is excreted by the kidneys

Triamterene is convered to an active metabolite in the liver whihc is actively secreted in the urine

Question 10

What osmotic diuretic is not metabolized and is elimiated rapidly by the kidney

Answer 10

Mannitol

Question 11

Pharmacokinetics of Thiazide Diuretics

Answer 11

Administered orally

Absorption is slow and incomplete

Bind extensively to plasma proteins

Excreted maily by the kidneys and are actively secreted in urine by the organic acid secretory machanism

Decreased renal blood flow decreases their effectiveness

Question 12

Glycerin and isosorbide are administered

Answer 12

Orally

Question 13

Pharmacokinetics of Spironolactone

Answer 13

Administered orally

Readily absorbed and is highly bound to plasma protein

Extensively metabolized by the liver and is converted to an active metabolite

Onset of action is slow (2-3 days) and duration of action is long

Question 14

Diuretic

Answer 14

Medication that increases urine flow or urine volume

Question 15

T/F: Diuretics are drugs that increase urination

Answer 15

False

Question 16

Potency of diuretics depends on

Answer 16

Where it acts in the nephron

Question 17

Examples of physiologic diuretics

Answer 17

Water

Sodium Chloride

Question 18

Therapeutic uses of Thiazide Diuretics

Answer 18

Treatment of edema of CHF, liver cirrhosis, nephrotic syndrome and acute glomerular nephritis

Treatment of hypertension alone or combined with other antihypertensive drugs

Treatment of nephrogenic diabetes insipidus and useful in central diabetes insipidus

Treatment of calcium nephrolithiasis and may be useful for the treatment of osteoporosis

Treatment of udder edema in cows

Question 19

Duretics ranked from most effect to least effective

Answer 19

Loop Diuretics > Thiazide Diuretics > Osmotic Diuretics > Potassium Sparing Diuretics

Question 20

Adverse effects of carbonic anhydrase inhibitors

Answer 20

Mild systemic acidosis

Hypokalemia

Hyperglycemia

Question 21

Mechanism of Action of Osmotic Diuretics

Answer 21

1. Interfere with transport mechanisms in the thick ascending limb increasing the urinary excretion of Na, K, Ca, Mg, Cl, HCO3 and phosphate
2. Osmotic effect in the tubule and reduce medullary tonicity
3. Increase renal blood flow and renal medullary blood flow by several mechanisms

Question 22

Mechanism of action of Loop or Ceiling Diuretics

Answer 22

1. Inhibit Na-K-Cl Symporter in the loop of henle
2. Inhibits the paracellular reabsorption of Na, Ca, Mg
3. Increased Na delivery to late distal tubule and collecting duct increases depolarization of the luminal membrane creating a lumen -negative transmembrane potentail difference - facilitates K excretion
4. Stimulate Renin-Angiotension- Aldosterone
5. Increases total renal blood flow
6. Increase systemic venous capacitance

Question 23

Therapeutic uses of Triamterine and Amiloride

Answer 23

Treatment of hypokalemia and hypomagnesemia

Occassionally used in edematous disorders and hypertension - very weak diuretics

Question 24

Mannitol and urea are administered

Answer 24

IV

Question 25

Mechanism of action of Spironolactone

Answer 25

1. Competitively blocks aldosterone binding to aldosterone receptor in the late distal tubule and collecting duct
2. Excretion of NaCl and diuresis as well as retention of K and H

Question 26

Major effects of Alpha 2 adrenoceptors

Answer 26

Inhibition of norepinephrine release

Inhibition of insulin release

Question 27

Mechanism of Action of Thiazide Diuretics

Answer 27

1. Inhibit the Na-Cl symporter in distal convoluted tubule - inhibition of tubular reabsorption of Na, Cl and diuresis
2. Inhibit K and Mg reabsorption but increase reabsorption of Ca
3. Cause hypokalemia and systemic alkalosis similarly to loop diuretics

Question 28

Examples of Loop or Ceiling Diuretics

Question 29

Therapeutic uses of Spironolactone

Answer 29

Diuretic

Treatment of primary and secondary hyperaldosteronism

Question 30

Adverse effects of loop or ceiling diuretics

Answer 30

Ototoxicity

Hypokalemia

Hypomagnesemia

Acute hypovolemia

Hypotension

Cardiact arrhythmias

Hyperglycemia

Hyperuricemia

Systemic alkalosis

Hypersensitivity reactions

Question 31

Pharmacokinetics of carbonic anhydrase inhibitors

Answer 31

Acetazolamide is administered orally

Onset of action is about 30 minutes and duration of action is 4-6 hours in small animals

Acetazolamide is eliminated maily by the kidneys and is actively secreted in urine by the organic acid secretory mechanism

Dorzolamide and Brinzolamide are administerd topically on the eye

Question 32

Adverse effects of Spironolactone

Answer 32

Hyperkalemia

Systemic acidosis

Adverse effects on reproduction because it acts on progesterone and androgen receptors

Question 33

Important Adrenoceptors

Answer 33

Alpha 1

Alpha 2

Beta 1

Beta 2

Question 34

Adverse effects of Triamterine and Amiloride

Answer 34

Hyperkalemia

Systemic acidosis

Question 35

Examples of Thiazide Diuretics

Answer 35

Hydrochlorothiazide

Chlorothiazide

Question 36

Therapeutic use of cardiovascular diuretics

Answer 36

Treatment of edema associated with congestive heart failure

Question 37

Mechanisms by which Loop or Ceiling Diuretics contribute to hypokalemia and systemic alkalosis

Answer 37

1. K excretion through K channel in the luminal membrane of the principal cell and H secretion in type A intercalated cell into the lumen
2. Stimulating the renin-angiotension-aldosterone

Question 38

Examples of Potassium Sparing Diuretics

Answer 38

Spironolactone

Triamterene

Amiloride

Question 39

General mechanism of action of all diuretics

Answer 39

Inhibit the reabsorption of Na

Question 40

Examples of osmotic diuretics

Answer 40

Mannitol

Urea

Glycerin

Iso

Question 41

Examples of cardiovascular diuretics

Answer 41

Digitalis

Phosphodiesterase inhibitors

Question 42

Pharmacokinetics of Furosemide

Answer 42

Administered orally and IV

Onset of action is rapid and duration is short

Partially metabolized by conjunction and partially excreted unchanged in urine and actively secreted in urine by the organic acid secretory mechanism

Question 43

Cardiovascular Diuretics

Answer 43

Not a diuretic by definition, but have diuretic effect

Any drug that cause increased contractility/ cardiac output of the heart to have a diuretic effect due to increased renal blood flow

Question 44

Osmotic diuretics act on what portion of the nephron

Answer 44

Act both on the loop of henle (primary site) and proximal tubule (secondary site)

Question 45

Mechanism of action of Triamterine and Amiloride

Answer 45

1. Block epithelial Na channels in the luminal membrane of the principal cells in the late distal tubule and collecting duct
2. Excretion of Na and diuresis as well as retention of K and H

Question 46

Therapeutic uses of carbonic anhydrase inhibitors

Answer 46

Treatment of open-angle glaucoma

Acetazolamide has been used in udder edmea

Question 47

Therapeutic uses of loop or ceiling diuretics

Answer 47

Treatment of pulmonary edema and pulmonary congestion

Treatment of generalized edema associated with CHF, chronic renal failure and liver cirrhosis

Combined with isotonic saline to treat hypercalcemia and prevent volume depletion

May be used in patients with acute renal failure

Treatment of increased intracranial pressure and udder edema

Etc.

Question 48

Major effects of Beta 2 adrenoceptors

Answer 48

Vasodilation

Slightly decreased peripheral resistance

Bronchodilation

Increased muscle and liver glycogenolysis

Increased release of glucagon

Relaxed uterine smooth muscle

Question 49

Mechanism of action of carbonic anhydrase inhibitors

Answer 49

1. Reversible inhibition of carbonic anhydrase (CA) which inhibits the exchange of hydrogen for sodium in the proximal tubule which is the primary site
2. Secondary site is the collecting duct
3. Carbonic anhydrase inhibitors lower intraocular pressure by inhibition of carbonic anhydrase in the eye decreasing formation of aqueous humor

Question 50

Major effects of Beta 1 adrenoceptors

Answer 50

Tachycardia

Increased lipolysis

Increased myocardial contractility