Heart Failure

Question 1

Heart failure results from…

Answer 1

the inability of the heart to pump sufficient blood to meet the metabolic needs of the body.

Question 2

Systolic Dysfunction

Answer 2

reduced contractility and reduced ejection fraction

Question 3

Diastolic dysfunction

Answer 3

stiffening and loss of adequate relaxation, which reduces filling and CO

ejection fraction may be normal

Question 4

Systolic etiologies

Answer 4

• ischemic heart disease
• chronic HTN
• dilated cardiomyopathy
• myocarditis

Question 5

Diastolic etiologies

Answer 5

• HTN with LV Hypertrophy
• restrictive and hypertrophic cardiomyopathies
• fibrosis
• amyloidosis
• sarcoidosis
• constrictive pericarditis
• hemochromatosis
• valvular disease
• aging

Question 6

You will hear an S3 gallop in ______ heart failure

Answer 6

systolic

Question 7

You will hear an S4 gallop in ______ heart failure

Answer 7

diastolic

Question 8

_______ limits diastolic filling time and coronary flow, further stressing the heart.

Answer 8

Tachycardia

Question 9

Primary and signs and symptoms of all types of heart failure

Answer 9

• tachycardia
• decreased exercise tolerance
• shortness of breath
• cardiomegaly
• peripheral and pulmonary edema are often but not always present

Question 10

ACC/AHA Stage A HF

Answer 10

Patients at high risk for developing heart failure

Ex: HTN, ASCVD, DM, obesity, metabolic syndrome

Question 11

ACC/AHA Stage B HF

Answer 11

pts w/structural heart dz but no HF signs or symptoms

Ex: Previous MI, LVH, LV systolic dysfunction

Question 12

ACC/AHA Stage C HF

Answer 12

pts w/structural heart disease and current or previous symptoms

Ex: LV systolic dysfunction & symptoms like dyspnea, fatigue, and reduced exercise tolerance

Question 13

ACC/AHA Stage D HF

Answer 13

refractory HF requiring specialized interventions

Ex: pts with treatment refractory symptoms at rest despite maximal medical therapy: pts requiring recurrent hospitalization or who cannot be discharged without mechanical assist devices or inotropic therapy.

Question 14

NYHA Class I

Answer 14

no limitation of physical activity

ordinary physical activity does not cause symptoms

Question 15

NYHA Class II

Answer 15

slight limitation of physical activity

comfortable at rest

ordinary physical activity causes symptoms

Question 16

NYHA Class III

Answer 16

marked limitation of physical activity

comfortable at rest

less than ordinary activity causes symptoms

Question 17

NYHA Class IV

Answer 17

severe limitation and discomfort with any physical activity

symptoms present even at rest

Question 18

Goals of pharmacologic therapy of HFrEF

Answer 18

improve symptoms (risk of hospitalization)

slow or reverse deterioration in myocardial function, and reduce mortality

Question 19

Improvement in symptoms is achieved by which drugs?

Answer 19

• diuretics
• BB
• ACE-I
• ARBs
• ARNI (angiotensin receptor-neprilysin inhibitor)
• hydralazine plus nitrate
• digoxin
• aldosterone antagonists

Question 20

Prolonged survival rate has been documented with which drugs?

Answer 20

• Beta Blockers
• ACE-I
• ARNI
• hydralazine plus nitrate
• aldosterone antagonists

Question 21

T/F: drug therapy should be titrated as tolerated to target ranges for optimum clinical benefit

Answer 21

TRUE

Question 22

T/F: benefits observed from aggressive monitoring strategies suggest treatment beyond clincial congestion may improve outcomes

Answer 22

TRUE

Question 23

What medications would you use for Stage A HF pts?

Answer 23

ACE-I or ARB or BB

Question 24

What meds would you use for Stage B pts with HF

Answer 24

ACE-I or ARB as appropriate

BB as appropriate

In select patients:

• ICD
• Revascularization or valvular surgery as appropriate

Question 25

What meds would you use in patients with Stage C HF

Answer 25

HFrEF:

• diuretics
• ACE-I or ARB
• BB
• Aldosterone antagonists
• Ivabradine
• Sacubitril/Valsartan

In select pts:

• hydralazine/isosorbide dinitrate
• Digitalis
• CRT
• ICD
• Revascularization or valvular surgery as appr.

HFpEF:

• Diuresis
• Guidelines driven indications for comorbidites
• Aldosterone antagonism to reduce HF hospitalizations

Question 26

What meds would you give pts with Stage D HF?

Answer 26

• advanced care measures
• heart transplant
• temporary or permanent MCS (mechanical circulatory support)
• Experimental surgery or drugs
• Palliative care and hospice

Question 27

MOA: Decreases NaCl, KCl, Calcium, Magnesium reabsorption in thick ascending limb of the loop of Henle in the nephron

What drug is this?

Answer 27

Furosemide

Question 28

Effects of this drug:

• increased excretion of salt and water
• reduces cardiac preload & afterload
• reduces pulmonary and peripheral edema

What drug is this?

Answer 28

Furosemide

Question 29

Clinical applications of Furosemide

Answer 29

• Acute and chronic heart failure
• severe hypertension
• edematous conditions

Question 30

Toxicity:

hypovolemia, hypokalemia, orthostatic hypotension, ototoxicity, sulfonamide allergy

Answer 30

Furosemide

Question 31

MOA: Decreases NaCl reabsorption in the distal convoluted tubule

What drug?

Answer 31

Hydrocholorothiazide (HCTZ)

Question 32

Clinical applications of Hydrocholorothiazide (HCTZ)

Answer 32

• mild chronic HF
• mild-moderate hypertension
• hypercalciuria
• has not been shown to reduce mortality

Question 33

Toxicity:

• hyponatremia
• hypokalemia
• hyperglycemia
• hyperuricemia
• hyperlipidemia

Answer 33

Hydrocholorothiazide

Question 34

MOA: blocks cytoplasmic aldosterone receptors in collecting tubules of nephron, possible membrane effect

What drug?

Answer 34

Spironolactone (Aldosterone Antagonist)

Question 35

Effects:

- increased salt and water excretion

- reduces remodeling

• reduces mortality

Answer 35

Spironolactone (Aldosterone Antagonist)

Question 36

Clinical applications of Spironolactone

Answer 36

• Chronic heart failure

- aldosteronism (cirrhosis, adrenal tumor)

• hypertension
• has been shown to reduce mortality

Question 37

Toxicity:

Hyperkalemia: risk increases if Creatinine >1.6 mg/dL

Avoid is Baseline K+> 5 mEq/L

• Antiandrogen actions

Answer 37

Spironolactone

Question 38

What is the #1 recommended strategy to reduce the risk for hyperkalemia with aldosterone antagonists?

Answer 38

counsel pts to:

• limit intake of high potassium-containing foods and salt substitutes
• Avoid the use of over the counter NSAIDS

Question 39

MOA: Inhibits angiotensin converting enzyme

Effects:

- ateriolar and venous dilation

- reduces aldosterone secretion

• reduces cardiac remodeling

Answer 39

ACE-I (angiotensin antagonists)

Lisinopril

Question 40

Clinical applications:

• chronic heart failure
• diabetic renal disease
• has been shown to reduce mortality

Answer 40

ACE-I (Angiotensin Antagonists)

Lisinopril

Question 41

Toxicity:

• cough
• hyperkalemia
• angioedema

Interactions: additive w/other angiotensin antagonists

Answer 41

ACE-I (Angiotensin Antagonist)

Lisinopril

Question 42

MOA: Antagonize AII effects at AT1 receptors

Answer 42

Losartan

Question 43

Clinical applications:

-chronic heart failure

• hypertension
• diabetic renal disease
• has been shown to reduce mortality
• used in pts intolerant to ACE-I

Answer 43

Losartan (ARB)

Question 44

Can you use ACE-I and ARB together?

Answer 44

NO

Question 45

Toxicity:

• hyperkalemia
• angioneurotic edema

Interactions:

• additive with other angiotensin antagonists

Answer 45

Losartan (ARB)

Question 46

MOA: neprilysin blocker/ARB

Answer 46

ANRi: Sacubitril/valsartan

Question 47

T/F: discontinue ACE inhibitors at least 36 hours before initiating sacubitril/valsartan treatment

Answer 47

TRUE

Question 48

MOA: competitively blocks B-1 and A-1 receptors

Answer 48

Carvedilol (Beta Blockers)

Question 49

Effects:

• slowsl heart rate
• reduces blood pressure
• poorly understood effects
• reduces heart failure mortality

Answer 49

Carvedilol (Beta Blockers)

Question 50

Clinical Applications:

• slows progression of chronic heart failure
• reduces mortality in moderate and severe heart failure

Answer 50

Carvedilol (Beta Blockers)

Question 51

Toxicity:

• bronchospasm
• bradycardia
• AV block
• Acute cardiac decompensation

Answer 51

Carvedilol (Beta Blockers)

Question 52

Select group of B blockers that have been shown to reduce heart failure mortality

Answer 52

Metoprolol

Bisoprolol

Question 53

Which beta blocker is effective in both systolic (HFrEF) and diastolic (HFpEF) failure?

Answer 53

Nebivolol

Question 54

MOA:

• Releases Nitric Oxide (NO)
• activates guanylyl cyclase

Answer 54

Isosorbide dinitrate

Question 55

Effects:

• Venodilation: reduces preload and ventricular stretch

Answer 55

Isosorbide dinitrate (Vasodilator)

Question 56

Clinical applications:

• acute and chronic heart failure
• angina

Toxicity:

• postural hypotension, tachycardia, headache

Interactions:

• additive with other vasodilators
• synergistic with phosphodiesterase type 5 inhibitors

Answer 56

Isosorbide Dinitrate (Vasodilators)

Question 57

Clinical applications:

• chronic failure in African Americans

**Indicated in conjunction with standard heart failure therapy to improve survival and reduce hospitalizations in self identified African American patients

Answer 57

Hydralazine- Isosorbide Dinitrate

Question 58

MOA: increases NO synthesis in endothelium

Answer 58

Hydralazine (Aterilar Dilators)

Question 59

Effects:

• reduces blood pressure and afterload
• increases Cardiac Output

Answer 59

Hydralazine (Arteriolar dilators)

Question 60

Clinical applications of Hydralazine

Answer 60

Hydralazine plus nitrates have reduced mortality

Question 61

Toxicity:

• Tachycardia
• Fluid retention
• Lupus-like syndrome

Answer 61

Hydralazine (Arteriolar dilator)

Question 62

MOA: rapid, powerful vasodilation reduces preload and afterload

Answer 62

Nitroprusside

Question 63

Clinical application: acute severe decompensated failure

Answer 63

Nitroprusside

Question 64

P-kinetics:

• IV only
• Duration: a few minutes

Answer 64

Nitroprusside

Question 65

Thiocyanate and cyanide toxicity

Answer 65

Nitroprusside

Question 66

MOA: Na+/K+ -ATPase inhibition results in reduced CA2+ expulsion and increased Ca2+ stored in sarcoplasmic reticulum

Answer 66

Digoxin

Question 67

Effects:

• increases cardiac contractility

**cardiac parasympathomimetic effect (slowed sinus heart rate, slowed AV conduction)

Answer 67

Digoxin (cardaic glycoside)

Question 68

Clinical applications:

• chronic symptomatic heart failure

- rapid ventricular rate in A-fib

- has not been definitively shown to reduce mortality with HFrEF

Answer 68

Digoxin (cardiac glycoside)

Question 69

Toxicity:

• narrow margin of safety

- nausea, vomiting, diarrhea, cardiac arrhythmias

Answer 69

Digoxin (Cardiac Glycoside)

Question 70

MOA: Beta 1 selective agonist

• increases cAMP synthesis

Answer 70

Dobutamine (Beta-adrenoceptor agonist)

Question 71

Effects: increases cardiac contractility, output

Answer 71

Dobutamine (Beta-adrenoceptor agonist)

Question 72

Clinical Applications:

• acute decompensated heart failure
• intermittent therapy in chronic failure reduces symptoms

Answer 72

Dobutamine (Beta-adrenoceptor agonists)

Question 73

P-kinetics, Toxicities, Interactions:

• IV only
• Duration a few minutes

Toxicity: arrhythmias

Interactions: additive with other sympathomimetics

Answer 73

Dobutamine

Question 74

MOA: dopamine receptor agonist, higher doses activate B and Alpha adrenoceptors

Effects: increases renal blood flow, higher doses increase cardiac force and blood pressure

Clinical applications: acute decompensated heart failure, shock

**IV only

Toxicity: arrhythmias

Interactions: additive with sympathomimetics

Answer 74

Dopamine (Beta-adrenoceptor agonists)

Question 75

Mechanism of Action:

Phosphodiesterase type 3 inhibitors

decrease cAMP breakdown

Effects:

vasodilators, lower peripheral vascular resistance

increase cardiac contractility

Clinical Applications:

acute decompensated heart failure

increase mortality in chronic failure

Toxicity: arrhythmias

Interactions: additive with other arrhythymogenic agents

Answer 75

Inamrinone, Milrinone

Question 76

MOA: activates BNP receptors, increases cGMP

Effects: vasodilation + diuresis

Clinical Applications: acute decompensated failure, has not been shown to reduce mortality

**IV only

Toxicity: renal damage, hypotension, may increase mortality

Answer 76

Nesiritide (Natriuretic Peptide)

Question 77

MOA: prolongs diastolic time by selectively and specifically inhibiting the If current within the HCN channel, reducing heart rate.

Indication: symptoms of heart failure that are stable, a normal heartbeat with a resting heart rate of atleast 70 beats per minute, taking a beta blocker at the highest dose tolerated

**hopefully reduces the risk of being hospitalized for worsening heart failure**

Answer 77

Ivabradine

Question 78

Interactions: avoid concomitant use with strong CYP3A4 inhibitors

Answer 78

Ivabradine

Question 79

T/F: In patients with NYHA class II and III HF and iron deficiency (ferritin <100 or 100-300 if transferrin saturation is <20), IV iron replacement may be reasonable to improve functional status.

Answer 79

TRUE

Question 80

In patients with HF and anemia, ________________ shoud not be used to improve morbidity and mortality

Answer 80

erythropoeitin-stimulating agents

Question 81

In patients with HF, the optimal blood pressure in those with HTN shoud be less than ______

Answer 81

130/80

Question 82

In pts with CVD and OSA, ______ may be reasonable to improve sleep quality and daytime sleepiness

Answer 82

CPAP