Pharm 8- Diuretics

Question 1

What are some common uses for diuretics?

Answer 1

CHF Hepatic Ascites Nephrotic Syndrome HTN

Question 2

How does hepatic ascites occur?

Answer 2

Advanced liver disease; increased portal vein pressure, liver sweats fluid produces proteins like albumin. COP goes down and fluid not held inside intravascular space as well

Question 3

Nephrotic Syndrome

Answer 3

Too much protein release in the urine, results in lots of edema; aldosterone retains sodium as a reflex

Question 4

What are the 4 categories of diuretics?

Answer 4

1. Carbonic anhydrase inhibitors 2. Loop diuretics 3. Thiazide diuretics 4. Potassium-Sparing Diuretics

Question 5

How do carbonic anhydrase inhibitors work?

Answer 5

Inhibit carbonic anhydrase in the proximal tubule epithelium; catalyzes reaction: Co2+H2O -> H2Co2(carbonic acid) -> Bicarb + H+ Shift equation to the right and bicarb accumulates in the urine; sodium less able to be exchanged for H+ in the tubules so H+ is retained while Na+ is lost (w/ bicarb)

Question 6

What is an example of a carbonic anhydrase inhibitor?

Answer 6

Acetazolamide (Diamox)

Question 7

Why is Acetazolamide (Diamox) rarely used in cardiovascular surgery?

Answer 7

Doesn’t produce a whole lot of urine; causes metabolic acidosis and we are already worried about our patients being acidotic on bypass

Question 8

What conditions does acetazolamide (Diamox) commonly treat?

Answer 8

Acute Mountain Sickness Glaucoma (decreases intra-ocular pressure)

Question 9

Why are carbonic anhydrase inhibitors useful for trapping chemicals?

Answer 9

Urine is alkalized (release bicarb) The higher pH favors A- and B; therefore acids get trapped.

Question 10

Where do loop diuretics act on?

Answer 10

Ascending loop of henle

Question 11

Other names for Loop diuretics?

Answer 11

Non-potassium sparing High ceiling diuretics Yellow Zipper drugs (humans) Waiting Room Puddle drugs (animals) “Chemical hemoconcentrator”

Question 12

Why are loop diuretics called high ceiling diuretics?

Answer 12

The dose-response curve is close to linear (that is, there is no ceiling)

Question 13

How do loop diuretics work?

Answer 13

Block co-transport of Na+/K+/2Cl- from the tubular lumen back into circulation; so much NaCl is not reabsorbed that downstream nephron sites cannot compensate for that loss Increase RBF by inducing expression COX-2

Question 14

What is the most efficacious of all the diuretics?

Answer 14

Loop Diuretics

Question 15

How fast do loop diuretics work?

Answer 15

Within minutes when given IV

Question 16

COX-2

Answer 16

“Ungood” cyclooxygenase NSAIDS preferentially blocked in inflamed tissues

Question 17

What do cyclooxygenases do?

Answer 17

Help produce protaglandins which are powerful vasodilators of renal arteries

Question 18

Why would NSAIDs interfere with loop diuretics?

Answer 18

Interferes in compromised patients (hepatic cirrhosis, nephrotic syndrome) because NSAIDS block COX (reduces vasodilation) and loop diuretics work to induce COX (increase vasodilation, increase RBF)

Question 19

What is the #1 choice diuretic for edema in emergency situations?

Answer 19

Loop Diuretics; fast-acting, efficacious Pulmonary edema from decompensated CHF

Question 20

What else might Loop Diuretics treat?

Answer 20

Hypercalcemia Hyperkalemia

Question 21

What are some causes of hypercalcemia?

Answer 21

Endocrine Malignancy Granulomatous Diseases Miscellaneous

Question 22

What are some Perfusion Uses of Loop Diuretics?

Answer 22

1. Rid of extra fluid (chemical hemoconcentrators) 2. Get rid of excess K+ 3. Maintain urine production/ renal function

Question 23

What does recent evidence suggest in regards to loop diuretics and urine?

Answer 23

Giving loop diuretics simply to keep urine flowing and thus “help” the kidneys is not appropriate and maybe deleterious in the long run

Question 24

What are the side effects of loop diuretics? Since they are predictable

Answer 24

1. Ototoxicity (particularly w. aminoglycoside antibiotics) 2. Hypotension 3. Hypomangesemia 4. Hyperuricemia 5. Hypokalemia

Question 25

What are the two commonly used loop diuretics?

Answer 25

Furosemide (Lasix) Ethacrynic acid (Edecrin)

Question 26

What are some of the advantages to using Furosemide (Lasix)?

Answer 26

Inexpensive has been used forever wide margin of safety/therapeutic window therefore the potential for using often 2 hour duration of action when given IV on pump

Question 27

What is the duration of action of Furosemide (Lasix)?

Answer 27

2 hour duration of action when given IV on pump

Question 28

What is the typical adult pump dose of Furosemide?

Answer 28

2.5-5.0 mg (20-40 mg bolus if the patient is receiving chronic diuretic therapy)

Question 29

Why isn’t ethacrynic acid (edecrin) used as often as furosemide (lasix)?

Answer 29

Greater potential for ototoxicity

Question 30

What are two of the less common diuretics that are used?

Answer 30

Bumetanide (Bumex) Torsemide (Demadex)

Question 31

When are the two less common diuretics used?

Answer 31

“Physician’s preference” When desired response is not achieved by furosemide (lasix)

Question 32

Where do thiazide diuretics act?

Answer 32

Act on the cortical region of the ascending loop of henle

Question 33

What is another name for thiazide diuretics?

Answer 33

Non-potassium sparing Ceiling Diuretics (because of their “flattening” dose/response curve

Question 34

How do thiazide diuretics work?

Answer 34

Block Na+/Cl- transport/reabsorption on the luminal side of the thick part of the ascending loop of henle and the distal convoluted tubule NaCl concentrates in the tubular fluid and water follows increasing urine production

Question 35

Why would thiazides lose efficacy in patients with decreased renal function?

Answer 35

Thiazides must actually get into the tubular lumens via renal excretion since they work on the luminal side of the thick part of the ascending loop of henle; with decreased renal function there would be decreased renal excretion

Question 36

How do thiazides increase renal blood flow?

Answer 36

COX-2 Inducement of prostaglandin synthesis

Question 37

What are thiazides structurally related to?

Answer 37

Acetazolamide; but causes much more diuresis

Question 38

What is the only thiazide available for parenteral use (that we can use on bypass)?

Answer 38

Chlorothiazide

Question 39

What was the original diuretic used for edema?

Answer 39

Chlorothiazide

Question 40

What is the typical adult pump dose of chorothiazide?

Answer 40

500mg

Question 41

What are the perfusion uses of thiazide diuretics?

Answer 41

Gets ride of edema (fluid) and potassium decreases SVR due to relaxation of arteriolar smooth muscle Second Line treatments (after loops) for edema of CHF Causes hyperosmolar urine used in diabetes

Question 42

What sets thiazides apart from the other diuretics?

Answer 42

Promotes the reabsoprtion of calcium; long-term results compared to loops result in significantly less decrease in bone density (hip fractures) decreased by 1/3

Question 43

What diuretic is used in diabetes insipidus and why?

Answer 43

Thiazide diuretics; cause the production of hyperosmolar urine

Question 44

Diabetes insipidus

Answer 44

kidneys are unable to conserve water, producing a large amount of dilute urine

Question 45

What are some examples of thiazide diuretics?

Answer 45

Chlorothiazide (Diuril) Hydrochlorothizide (HCTZ, Microzide)

Question 46

How is HCTZ (Microzide) different from chlorothizide (Diuril)?

Answer 46

HCTZ is more potent but has the same efficacy and is not given parenterally

Question 47

How is HCTZ used to tx HTN?

Answer 47

Used in fixed combinations for the treatment of HTN; Hyzaar = HCTZ + Losartan (ACE blocker)

Question 48

What are some thiazide-like diuretics?

Answer 48

Chlorthalidone (Hygroton) Indapamide (Lozol) Metolazone (Zaroxolyn)

Question 49

Which thiazide-like diuretic is commonly used to treat HTN?

Answer 49

Chlorthalidone (Hygroton)

Question 50

Which thiazide-like diuretic is partially excreted by the GI tract, so useful in advanced renal failure?

Answer 50

Indapamide (Lozol)

Question 51

Where do potassium-sparing diuretics function?

Answer 51

In the collecting tubules (ducts) to prevent Na+ reabsorption and K+ excretion

Question 52

What do potassium-sparing diuretics do?

Answer 52

Antagonize aldosterone

Question 53

How are potassium-sparing diuretics typically used to treat HTN?

Answer 53

In combination with diuril or hydrochlorothiazide

Question 54

How does the efficacy of potassium-sparing diuretics compare to the efficacy of non-potassium-sparing diuretics?

Answer 54

Potassium-sparing diuretics are signficantly less efficacious than its non-potassium sparing alternatives

Question 55

In what patients might potassium-sparing diuretics present a problem?

Answer 55

Problematic in patients with hyperkalemia; such as patients with polycystic kidney disease

Question 56

What are the two types of potassium sparing diuretics?

Answer 56

Direct Aldosterone Antagonists Indirect Aldosterone Antagonists

Question 57

What are some direct aldosterone antagonists?

Answer 57

Spironolactone (Aldactone) Eplerenone (Inspra)

Question 58

What do direct aldosterone antagonists resemble chemically?

Answer 58

Sex steroids

Question 59

What drugs are used as an adjunctive therapy in heart failure? Why?

Answer 59

Direct Aldosterone Antagonist (Potassium sparing diuretic); statistically decreases mortality and helps prevent pathological remodeling of the heart

Question 60

What is the diuretic of choice for liver failure patients with edema?

Answer 60

Spironolactone (Aldactone) (Direct aldosterone antagonist/Potassium-sparing diuretic)

Question 61

Cushing’s Disease

Answer 61

Too much adrenal function

Question 62

Addison’s Disease

Answer 62

Not producing aldosterone; hypoadrenocortisone

Question 63

What patient population would direct aldosterone antagonists not be effective in?

Answer 63

Addison’s Disease because they are not producing enough aldosterone; therefore, a non-direct aldosterone antagonist would be much more benficial

Question 64

How do indirect acting aldosterone antagonists work?

Answer 64

Block the Na+ transport channels affected by aldosterone rather than aldosterone itself

Question 65

What are some indirect-acting aldosterone antagonists?

Answer 65

Triamterene (Dyrenium) Amiloride (Midamor)

Question 66

What are osmotic diuretics?

Answer 66

Small non-metabolized molecules filtered through the glomerulus that osmotically carry water with them

Question 67

How are osmotic diuretics administered?

Answer 67

Parenterally; because they cause severe diarrhea if given orally

Question 68

What are some examples of osmotic diuretics?

Answer 68

Mannitol (osmitrol) Urea/Glucose (rarely if ever given)

Question 69

Where do osmotic diuretics work?

Answer 69

Proximal tubule and the descending loop of henle which permit the free passage of water

Question 70

How are osmotic diuretics relevant to perfusionists?

Answer 70

Commonly used to draw fluid into the intravascular space and decrease interstitial edema; maintain urine flow following acute renal injury; use to decrease cerebral edema

Question 71

Why might osmotic diuretics be controversial as far as being used to draw fluid into intravascular space?

Answer 71

mannitol dilutes the blood

Question 72

In what patient population might mannitol be problematic?

Answer 72

In patients with oliguric/anuric renal failure (Lookup why….?)

Question 73

Describe the test dose that should be given with osmotic diuretics (Mannitol)

Answer 73

If urine output is <50ml/hour for three hours after a 12.5 gram IV dose; AVOID.

Question 74

What is mannitol (osmitrol) categorized as?

Answer 74

A small molecule categorized as a “sugar alcohol;” familiar cousins xylitol and sorbitol

Question 75

What percent solution is mannitol usually supplied in?

Answer 75

20% solutions 20g/ 100ml

Question 76

What is Rule #1 when giving mannitol?

Answer 76

Check the bag/bottle for precipitated crystals!!

Question 77

What is important about the administration of mannitol when relating to perfusion?

Answer 77

Excreted (not metabolized) within one hour, so repeat doses can be given. Must be given slow IV or profound transient hypotension will occur due to skeletal muscle vasodilation

Question 78

What would happen if mannitol is not given slow IV?

Answer 78

Profound transient hypotension will occur due to skeletal muscle vasodilation

Question 79

What is the typical adult CPB prime mannitol/ and or intraoperative dose?

Answer 79

12.5-25 grams (but not standard, some give more some give less)

Question 80

What type of diuretic does this represent?

Answer 80

Carbonic Anhydrase (CA) Inhibitor

Question 81

What type of diuretic does this represent?

Answer 81

Loop Diuretics

Question 82

What type of diuretic does this represent?

Answer 82

Thiazide diuretics

Question 83

What type of diuretic does this represent?

Answer 83

Potassium-sparing diuretics

Question 84

Which type of diuretic works here?

Answer 84

Carbonic Anhydrase Inhibitor (Proximal convoluted tubule)

Osmotic Diuretics (Proximal convolution tubule AND descending loop of Henle)

Question 85

Which type of diuretic works here?

Answer 85

Loop Diuretics (thick part of ascending loop of Henle)

Question 86

Which type of diuretic works here?

Answer 86

Thiazides (distal convoluted tubule and luminal side of the ascending loop henle)

Question 87

Which type of diuretic works here?

Answer 87

Potassium sparing diuretics (Collecting tubule and duct)