Cardiology 1

Question 1

Preload

Answer 1

Ventricular filling pressure or left ventricular end-diastolic volume

(filling pressure and volume at the end of diastole)

Question 2

Afterload

Answer 2

Left ventricular wall tension or stress during systole

Question 3

Cardiac Output

Answer 3

Volume of blood ejected per unit of time

CO= HR x SV

Question 4

Cardiorenal HF

Answer 4

Sodium/Water excess –> think diuretics as first line of treatment

Question 5

Cardiocirculatory HF

Answer 5

inadequate contractility –> think positive inotropes for treatment

Question 6

Neurohormonal HF

Answer 6

Initial insult activates sympathetic system; but progression is mediated by neurohormones –> modulate hormonal activation

Question 7

Systolic Dysfunction (3)

Answer 7

1. Decreased Ejection Fraction <40%
2. Impaired wall motion
3. Dilated ventricle

Question 8

Diastolic Dysfunction (5)

Answer 8

1. Preserved Ejection Fraction >40%
2. Impaired ventricular relaxation and filling
3. Normal wall motion
4. Loss in elasticity of the cardiovascular system
5. Usually caused by cardiomyopathies (restrictive, infiltrative, hypertrophic)

Question 9

Signs and Symptoms of HF (6)

Answer 9

1. Growth failure (INCREASED METABOLISM)
2. Respiratory distress
3. Exercise intolerance, difficulty feeding
4. Edema
5. Dyspnea
6. Fatigue

Question 10

PHFI +1 Classification for HF (5)

Answer 10

1. Marked cardiomegaly by x-ray or physical exam
2. Reported physical activity intolerance or prolonged feeding time
3. Pulmonary edema by x-ray or auscultation
4. Hepatomegaly less than 4cm below costal margin
5. Mild to moderate tachypnea or dyspnea

Question 11

PHFI +2 Classification for HF (8)

Answer 11

1. Abnormal ventricular function by echo or gallop
2. Dependent edema, pleural effusion, or ascites
3. Failure to thrive or cachexia
4. Poor perfusion by physical exam
5. Resting sinus tachycardia
6. Retractions
7. Hepatomegaly over 4cm below costal margin
8. Moderate to severe tachypnea or dyspnea

Question 12

Medications for PHFI +1 (4)

Answer 12

1. Digoxin
2. Low to moderate dose diuretics
3. ACE-Inhibitors, non-ACE inhibitor vasodilators or ARBs
4. Beta Blockers

Question 13

Medications for PHFI +2 (3)

Answer 13

1. High dose diuretics or more than 1 diuretic
2. Anticoagulants not related to prosthetic value
3. Anti-arrhythmic agents or ICD

Question 14

How to calculate PHFI

Answer 14

Total score derived by adding scores attributed to each individual criterion

0= no HF
30= severe HF

Question 15

Vasoconstriction Compensatory Mechanisms of HF

Answer 15

Vasoconstriction increases BP and decreases CO to shunt blood to the brain and the heart; get a decrease in SV which further activates compensation of vasoconstriction

Question 16

Pharmacologic Therapy Principles for Systolic HF (6)

Answer 16

1. Block the compensatory neurohormonal activation caused by decreased cardiac output
2. Prevent/minimize Na and water retention
3. Eliminate/minimize symptoms of HF
4. Slow progression of cardiac dysfunction
5. Decrease mortality (prolong survival)
6. Increase quality of life

Question 17

Diuretics Mechanism of Action (3)

Answer 17

1. Inhibits reabsorption of sodium and chloride in the renal tubules
2. Increased Na excretion –> increased volume excretion –> decreased preload
3. Rapid improvement in edema

Question 18

Loop Diuretic Agents (3)

Answer 18

1. Furosdemide (Lasix)
   * Main diuretic used with children; if patient is going from IV to oral, double the dose
2. Torsemide
3. Bumetanide (Bumex)

Question 19

Loop Diuretic Site of Action, Mechanism of Action, and Adverse Effects (3)

Answer 19

1. Site of Action: Ascending loop of henle
2. Mechanism of Action: inhibits chloride, sodium, and potassium reabsorption
3. Adverse Effects: increased potassium and sodium loss

Question 20

Thiazide Diuretics Available Agents (2)

Answer 20

1. Hydrochlorothiazide

2. Chlorothiazide (Diuril)

Question 21

Thiazide Diuretics Site of Action, Mechanism of Action, and Adverse Effects (3)

Answer 21

1. Site of Action: Early distal tubule
2. Mechanism of Action: Inhibits chloride reabsorption = inhibit sodium reabsorption
3. Adverse Effects: Increased potassium, sodium, and chloride loss

Question 22

Aldosterone Antagonist (K sparing) Diuretic Agents (3)

Answer 22

1. Spironolactone
   * Also commonly used with children
2. Eplerenone
3. Amiloride

Question 23

Aldosterone Antagonist (K sparing) Diuretic Site of Action, Mechanism of Action, and Adverse Effects (3)

Answer 23

1. Site of Action: Late distal tubule, early collecting ducts
2. Mechanism of Action: inhibits na/k antiports, so it inhibits sodium and increases potassium secretion
3. Adverse Effects: increased potassium

Question 24

Osmotic Diuretic Agent, Site of Action, Mechanism of Action, Adverse Effects (4)

Answer 24

1. Agent: Mannitol
2. Site of Action: proximal tubule, thin descending lim, distal tubule, and collecting ducts
3. Mechanism of Action: prevents water reabsorption; indirectly inhibits sodium reabsorption
4. Adverse Effects: increased electrolyte imbalance, hyperglycemia

Question 25

Carbonic Anyhydrase Inhibitors Diuretic Agent, Site of Action, Mechanism of Action, Adverse Effects (4)

Answer 25

1. Agent: Acetazolamide
2. Site of Action: Proximal Tubule
3. Mechanism of Action: Inhibits HCO3, H, Sodium reabsorption
4. Adverse Effects: HCO3 loss –> acidosis

Question 26

Diuretics Resistance (2)

Answer 26

1. Decreased absorption due to edema at GI tract and hypoperfusion
2. Increased exposure leads to changes in renal tubules altering ion transport

Question 27

How to overcome diuretic resistance (4)

Answer 27

1. Administer as continuous infusion
2. Add positive inotropic agent
3. Increase dose or frequency of diuretic*
4. Add additional diuretic for synergy

Question 28

General Adverse Effects of Diuretics (4)

Answer 28

1. Electrolyte depletion
   - Decrease Na, K, Mg, Ca, Cl
2. Hypotension
3. Dizziness
4. Dehydration/azotemia
   * Azotemia=increased nitrogen-containing compounds

Question 29

Loop Diuretic ADEs (4)

Answer 29

1. Nephrotoxic
2. Caution with sulfa allergy (all contain sulfur moiety)
3. hyperglycemia
4. Hearing loss (reversible)

Question 30

Spironolactone ADEs (2)

Answer 30

1. Hyperkalemia –> used in pediatrics mainly for this affect
2. Gynecomastia

Question 31

What to monitor with Diuretics (6)

Answer 31

1. All electrolytes
2. SCr (serum creatinine for renal function)
3. Vitals (BP)
4. Body weight - trend weight increases/decreases with urine output
5. HF symptoms
6. ADEs

Question 32

Diuretic Clinical Pearls (5)

Answer 32

1. Loops are recommended as first line therapy
2. Do not over-diurese; maintain euvolemic state
3. Monitor and replace K and Mg as needed, especially with loops
4. Dose in morning! unless multiple daily dose are required
5. May combine classes of diuretics for synergy

Question 33

Furosemide Pearls and Dosing (4)

Answer 33

1. Dosing: 1-2 mg/kg
2. Available as tablet and solution
3. Most common diuretic used in children
4. Generally well tolerated but can see rare and serious side effects

Question 34

Acetazolamide Dosing and Pearls (2)

Answer 34

1. Dosing: 5mg/kg up to 3x/day

2. Used in inpatient setting to help secrete bicarb (for alkalosis)

Question 35

Spironolactone Dosing and Pearls (2)

Answer 35

1. Dosing: 1mg/kg q8-q24

2. Used primarily for potassium sparing effects to avoid KCl supplementation

Question 36

KCl supplementation dosing and Pealrs (2)

Answer 36

1. Dosing: 1-4mEq/kg q8-24

2. Available as liquid and delayed release tablets

Question 37

ACE Inhibitor Mechanism of Action (7)

Answer 37

1. Blocks production of angiotensin II
2. Decreased sympathetic stimulation
3. Decreased production of aldosterone and vasopressin
4. Decreased vasoconstriction (afterload)
5. Increased bradykinins
6. Increased vasodilatory prostaglandins
7. May affect cardio remodeling

Question 38

ACE Inhibitor ADEs (6)

Answer 38

1. Non-productive cough
2. Increased potassium
3. Angioedema
4. Renal insufficiency
5. Hypotension
6. Neutropenia

Question 39

ACE Inhibitor Monitoring (4)

Answer 39

1. BMP; mainly SCr and K
2. BP
3. CBC
4. HF symptoms

Question 40

ACE Inhibitor and ARB Contraindications (3)

Answer 40

1. Potassium over 5.5
2. History of angioedema
3. Pregnancy

Question 41

ACE Inhibitor and ARB Cautions (3)

Answer 41

1. Potassium over 4.5 or taking other medications that increase potassium
2. SCr over 3mg/dL (monitor SCr in children)
3. Bilateral renal artery stenosis

Question 42

Enalapril Dose interval, available dosage forms, clinical pears (3)

Answer 42

Enalapril is the prodrug!

1. Dose interval: once daily dosing (can dose q12)
2. Available dosage forms: oral tablet, compound suspension, 1mg/ml manufacturer suspension
3. Clinical pearls: because of significant risk of Hypotension, test dose is 0.05mg/kg and max dose is 0.4mg/kg/dose BID

Question 43

Captopril Dose interval, available dosage forms, clinical pears (3)

Answer 43

1. Dose interval: Usually given 3 times per day (shortest half-life)
2. Available dosage forms: tablet, compound suspension, transdermal patch IV
3. Clinical pearls: Shortest 1/2 lift so easier to titrate the dose initially, but for compliance not used as much

Question 44

Lisinopril Dose interval, available dosage forms, clinical pears (3)

Answer 44

1. Dose interval: Once daily dosing
2. Available dosage forms: oral tablet, manufracturer suspension
3. Clinical pearls: All equally effective

Question 45

Enalapril test dose and max dose

Answer 45

Because of significant risk of Hypotension, test dose is 0.05mg/kg and max dose is 0.4mg/kg/dose BID

Ex: starting a patient on Enalapril and he weighs 8kg, what would the dose be?
0.05*8=0.4mg

Question 46

ACE Inhibitor Clinical Pearls (1C, 2A)

Answer 46

1. May see more pronounced 1st dose response
   1A. Decreased Serum Na, volume depletion, concurrent
   diuretics
   1B. CHF exacerbations
   1C. Hemodynamic instability
2. African American (AA) Patients are more likely to have low renin activity
   2A. 2-4 fold incidence in angioedema and cough

Question 47

ARB Mechanism of Action

Answer 47

Selectively blocks binding of angiotensin II to the AT1 receptor found in tissues

• Decreased production of aldosterone and vasopressin
• Decreased vasoconstriction (afterload)
• Does not inhibit metabolism of bradykinin

Question 48

Adverse Effects of ARBs

Answer 48

1. Increased K
2. Angioedema
3. Renal Insufficiency
4. Hypotension
5. Neutropenia

Question 49

Monitoring for ARBs

Answer 49

1. BMP (SCr and K)
2. CBC
3. BP
4. HF symptoms

Question 50

ARB Clinical Pearls (3)

Answer 50

1. Indicated in patients intolerant to ACE inhibitors due to cough or angioedema (although angioedema is a caution with ARBs)
2. Same cautions and contraindications as ACE inhibitors
3. Mainly used in pediatrics - Marfans syndrome

Question 51

Beta Blocker Mechanism of Action (6)

Answer 51

1. Blocks effect of sympathetic neurotransmitters (norepinephrine) on the heart and vasculature. Beta receptor stimulation normally leads to increase in HR, myocardial contractility, BP and myocardial O2 demand.
2. Decreased ventricular arrhythmias
3. Decreased cardiac hypertrophy and myocardial cell death
4. Decreased vasoconstriction and HR
5. Beta 1 = heart
6. Beta 2 = lungs

Question 52

Timolol

Answer 52

Non-selective Beta blocker topically used for intraocular pressure

Question 53

Nadolol (4)

Answer 53

1. Non-selective Beta blocker with longer half life
   * Needs dosage adjustment if patient has renal impairment
2. 100% urine elimination
3. Nonselective so works on splancneic
4. Used commonly in patients with HTN or liver disease to decrease risk of esophageal varices

Question 54

Propranolol (5)

Answer 54

Non-selective BB that is also used for:

1. Tet spells
2. HTN
3. Anxiety
4. Migrane ppx
5. Hemangioma

Question 55

Sotalol

Answer 55

Non-selective BB primary used for arrhythmias

Question 56

Atenolol (4)

Answer 56

1. Beta-1 selective (heart)
2. Requires renal adjustment (40% excreted as unchanged drug)
3. Once or twice daily administration
4. Only available as tablet so requires compounding for suspension

Question 57

Esmolol (4)

Answer 57

1. Beta-1 selective (heart)
2. Used primarily for treatment of supraventricular tachycardia (SVT), atrial fib/flutter, and hypertensive emergency.
3. IV formulation only, very fast acting with short half life (3 to 6 min in children, 9 min in adults)
4. Causes dramatic drop in BP

Question 58

Metoprolol (4)

Answer 58

1. Hepatic metabolism (no renal interactions)
   * good for patients with renal impairment
2. IV dosing is much lower
3. ER and IR oral formulations; recipe for suspension available (ER and IR would have different dosing)
4. Beta-1 selective (heart)

Question 59

Carvedilol (3)

Answer 59

1. Beta-1 selective (heart)
2. B1 and alpha-1blockade –> decreased afterload
3. Greater reduction in BP compared to metoprolol

Question 60

Labetalol

Answer 60

beta 1 selective and alpha1 blockade

Question 61

Beta Blocker ADEs (6)

Answer 61

1. Hypotension
2. Decreased HR
3. Fluid retention
4. Depression
5. Fatigue/weakness
6. Sexual dysfunction

Question 62

How to manage BB hypotension

Answer 62

Decreased vasodilator therapy –> if hypotension persists then decrease beta blocker dose

Question 63

How to manage BB fluid retention

Answer 63

Increase diuretic dose –> if fluid retention persists then decrease BB dose

Question 64

How to manage BB bradycardia

Answer 64

Decrease beta blocker dose! –> if bradycardia persists then d/c BB

Question 65

Beta blocker cautions (4)

Answer 65

1. Severe bronchospastic disease (asthma)
2. Bradycardia
3. Symptomatic hypotension
4. 2nd or 3rd degree heart block

Question 66

Beta blocker monitoring (4)

Answer 66

1. Body weight
2. Vitals (BP, HR)
3. HF symptoms
4. ADEs

Question 67

Beta blocker clinical pearls (5)

Answer 67

1. Utilized in clinically stable patients on ACE-I and diuretics
2. Should be fluid stable before starting therapy
3. May become more symptomatic for first few weeks when starting therapy
4. ‘Start low, titrate slow’
5. If therapy is held for over 72 hours, consider restarting beta blocker at 50% of previous dose

Question 68

Aldosterone Antagonist Mechanism of Action (5)

Answer 68

1. Blocks effects of aldosterone in the kidneys, heart and vasculature
2. Decreased potassium and magnesium loss - decreased ventricular arrhythmias
3. Decreased sodium retention - decreased fluid retention
4. Decreased catecholamine potentiation - decreased BP
5. Blocks direct fibrotic actions on myocardium

Question 69

Types of Aldosterone Antagonists (2)

Answer 69

1. Spironolactone

2. Eplerenone

Question 70

ADEs of Aldosterone Antagonists (3)

Answer 70

1. Increased K
2. Gynecomastia or breast pain
3. Sexual dysfunction

Question 71

Clinical Pearls of Aldosterone Antagonists (3)

Answer 71

1. Spironolactone is used in pediatric cardiology primarily for potassium sparing effect
2. Only tablets are available so it requires compounding pharmacy to prepare suspension
3. Avoid used in combination with both an ACE-I and ARB due to risk of increased potassium

Question 72

Benefits of Digoxin (4)

Answer 72

1. Improved symptoms
2. Improved exercise tolerance
3. Decreased hospitalizations
4. No effect on mortality

Question 73

Digoxin Mechanism of Action

Answer 73

1. Inhibits Na-K ATPase
2. Decreased central sympathetic outflow
3. Decreased renal reabsorption of Na
4. Increased minimal in cardiac contractility due to inhibition of Na-K ATPase

Question 74

Digoxin ADEs (4)

Answer 74

1. Dig toxicity
2. Cardiac toxicity - ventricular arrhythmias, heart blocks, bradycardia
3. GI disturbances
4. CNS toxicities - confusion, vision changes

Question 75

Digoxin Risk Factors for ADEs (6)

Answer 75

1. Increased Ca
2. Decreased K
3. Decreased Mg
4. Hypothyroidism
5. Interacting medications
6. Renal insufficiency

Question 76

Digoxin Contraindications

Answer 76

2nd or 3rd degree heart blocks

Question 77

Digoxin Cautions while on…. (5)

Answer 77

1. Amiodarone
2. Diuretics (ex: Furosemide)
3. Cholestyramine
4. Spironolactone
5. Verapamil

Question 78

Digoxin Monitoring (5)

Answer 78

1. BMP (K and SCr)
2. Serum digoxin levels
   - Therapeutic: 0.8-1.2
3. Vitals (HR)
4. HF symptoms
5. Signs/Symptoms of digoxin toxicity

Question 79

Increased Digoxin Monitoring is required if…(4)

Answer 79

1. Changes in renal function
2. Changes in EKG
3. Signs/Symptoms of digoxin toxicity
4. Initiation or d/c of interacting medications

Question 80

Digoxin Clinical Pearls (4)

Answer 80

1. NOT indicated for acute exacerbations
2. Loading dose not needed in HF
3. Decreased starting dose in patients with conduction abnormalities, decreased renal function, low lean body mass
4. Decreased dose by 50% for concomitant amiodarone therapy

Question 81

Hydralazine Mechanism of Action (2)

Answer 81

1. Vasodilator

2. Enhances effects of nitrates

Question 82

Nitrates Mechanism of Action (2)

Answer 82

1. Stimulates nitric acid signaling in endothelium

2. Decreases preload

Question 83

Nitrates ADEs (5)

Answer 83

1. Headache
2. Hypotension
3. Dizziness
4. Flushing
5. Flu-like symptoms

Question 84

Hydralazine ADEs (5)

Answer 84

1. Headache
2. Hypotension
3. Dizziness
4. Leucopenia/thrombocytopenia
5. Lupus-like symptoms

Question 85

Nitrates and Hydralazine Monitoring (5)

Answer 85

1. CBC - WBC and Platelets
2. Vitals - BP
3. ANA profile - only if lupus symptoms appear
4. HF symptoms
5. ADEs

Question 86

Calcium Channel Blocker Benefits (3)

Answer 86

1. No mortality benefit
2. May be beneficial in treatment of hypertension in patients at target doses of ACE-I, beta blockers, and ARBs
3. No observed decompensated HF when using amlodipine or felodipine

Question 87

Anti-Arryhtmics (2)

Answer 87

1. ONLY 2 anti-arrhythmics have been proven safe in treating arrhythmias in HF
   – Amiodarone
   – Dofetilide
2. Therapy indicated for sustained or hemodynamically unstable ventricular tachycardia, ventricular fibrillation, recurrent/sustained atrial arrhythmias

Question 88

Red Flag Medications in HF (12)

Answer 88

1. All class I agents of anti-arrhytmics (ex: Stalol)
   - Instead, use amiodarone or dofetilide
2. Ditiazem
3. Verapamil
4. Metformin (oral hypoglyemic)
5. Rosiglitazone (oral hypoglyemic)
6. Pioglitazone (oral hypoglyemic)
7. Systemic glucocorticoids
   - prednisone, methylprednisolone, hydrocortisone, dexamethasone
8. HRT therapies (estrogens and androgens)
9. NSAIDs - Ibuprofen and Naproxen
10. Doxorubicin
11. Daunorubicin
12. Cilostazol

Question 89

Aspirin (5)

Answer 89

1. Used post Norwood and other procedures that require the least amount of anticoagulation
2. Used for IVIG resistant Kawasaki Disease for anti-inflammatory effects as well as protection from aneurysm clotting
3. Dosing: 5-10mg/kg, 1/4, 1/2, and 1 tablet dosing
4. Unstable in liquid, therefore tablet must be crushed and diluted with small amount of water just before administration
5. Caution with Reye’s syndrome

Question 90

Warfarin Mechanism of Action (3)

Answer 90

1. Competitively inhibits VKORC1 depleting functional Vitamin K reserves
2. Limits the amount of vitamin K dependent coagulation factors needed for clotting
3. Factors affected: Factors II, VII, IX, X, Protein C & S (natural anticoagulants)
   * blocks body’s natural coagulants and increases clearance to form a clot; hyperthrombotic patient on heparin/lovenox to prevent hyperthrombotic state

Question 91

Warfarin Place in Pediatric Medicine (2)

Answer 91

1. Post-Fontan procedures

2. Extracardiac devices (usually INR is higher)

Question 92

Warfarin Dosing (3)

Answer 92

1. 0.2mg/kg starting dose
2. Usually given at night for AM lab draws
3. May require a bridge anticoagulation for first 3-4 days or until therapeutic INR due to earlier depletion of protein C and S

Question 93

Warfarin Monitoring (2)

Answer 93

1. Nutrition
2. INR goal (2-3)
   * Especially watch INR in patients on antibiotics
3. Drug/Food Interactions
   - Many!
   - Watch Vitamin K intake because Warfarin is a Vitamin K antagonist; if they eat increased Vitamin K they may need higher dose of Coumadin

Question 94

Enoxaparin (4)

Answer 94

Lovenox

1. DVT prophylaxis; inhibits factor Xa to prevent clots
2. Tx of any thrombosis (ex: pulmonary embolism, catheter associated clot)
3. Dosing is based on therapeutic anti-Xa
4. Monitoring is based on the peak level drawn 4-6 hours after the dose
5. Protamine is only minimally useful in reversing anticoagulation

Question 95

Enoxaparain Dosing in children

Answer 95

1-2 mg/kg/dose q12 hours

*only available in SC injection