Heart Failure 2

Question 1

Goals of Therapy for HFpEF Management:

Answer 1

• Reduce HF symptoms
• Increase functional status (NYHA class)
• Reduce hospitalization risk
  — lifestyle modification, congestion control, rhythm control, BP and comorbidity management

no evidence that pharm, diet, etc reduce mortality risk for these patients

Question 2

Ongoing evaluation and monitoring for HFpEF

Answer 2

1. F/u every 1-6 months, depending on comorbid conditions, medication response, etc.
   - HTN, CAD, CKD, obesity
2. Chronic disease management
3. Exercise, diet, weight loss, and cardiac rehab

Question 3

what therapy is most effective providing symptomatic relief to pts with HF
Improves both dyspnea and fluid overload

Answer 3

diuretics

Question 4

what diuretic is used for mild fluid retention in HF?

Answer 4

thiazides

• Hydrochlorothiazide
• Metolazone
• Chlorthalidone

Monitor renal function and potassium

Question 5

what diuretic therapy is used for severe fluid retention / symptoms in HF?

Answer 5

oral loop diuretic

• Furosemide
• Torsemide
• Bumetanide

MUST monitor renal function and potassium

Question 6

what is the Rule Of 2s for HF?

Answer 6

no more than 2L of fluids
no more than 2g of Na

Question 7

if a pt has continued sx from diuretic therapy, what could you do?

Answer 7

1. combine thiazide + loop
   - Caution - massive diuresis and electrolyte abnormalities
   - Metolazone and furosemide MC combo
2. Oral potassium replacement
   - Potassium chloride (KCl, Klor-con, Kdur)
3. Monitoring
   - Daily weights
   - BMP within 1 wk of diuretic therapy initiation or dosage change

Question 8

what medication reduces the risk of cardiovascular death and hospitalization for heart failure, regardless of diabetes status

Answer 8

SGLT2i

Dapagliflozin (Farxiga), empagliflozin (Jardiance), canagliflozin (Invokana), Sotagliflozin (Inpefa)

Question 9

how do SGLT2i help with HF?

Answer 9

• osmotic diuresis and natriuresis → decreasing arterial pressure and stiffness → shifts to ketone-based myocardial metabolism
• Additional benefits d/t reduction of preload and afterload, blunting of cardiac stress/injury with less hypertrophy and fibrosis

The exact mechanism remains uncertain

Question 10

what are the Recommended Pharm Classes for HFrEF?

Answer 10

• Loops - sx relief d/t fluid overload
• ACEi or ARBs (1)
• BB (1) - additive to ACEi
• Aldosterone antagonists (1)
• SGLT2i (1)
• Entresto (1)
• Hydralazine/Nitrate combination (1)
• Corlanor (2a)
• Digoxin (2b)

Question 11

class indications for ARBs

Answer 11

• Class I indication for patients who do not tolerate ACE inhibitors
• Class IIA indication to continue if pt already on an ARB at time of dx of HF
• Class IIB indication to add to ACE inhibitor if aldosterone antagonist is contraindicated
• Class III (harmful) to add to ACE inhibitor and aldosterone antagonist

Question 12

which BB is LA and is the most effective for HF?

Answer 12

Metoprolol succinate

Question 13

indication for aldosterone antagonist for HF?

Answer 13

Class I indication - Prolong survival and reduce cardiac remodeling

Question 14

CI for Aldosterone Antagonists

Answer 14

patients with K > 5 and eGFR < 30

Question 15

Combination sacubitril and valsartan
a neprilysin inhibitor, which limits the breakdown of natriuretic peptides (ANP, BNP)

what medication is this?

Answer 15

Entresto

Question 16

indications for Entresto

Answer 16

pts with continued sx after on appropriate doses of ACEI and BB
Used in place of the ACEI or ARB

Question 17

what is needed before starting entresto?

Answer 17

Will need a 36 hr washout period of ACEI prior to starting Entresto
Start low dose and titrate to max dose over 4-6 weeks

Question 18

CI to entresto

Answer 18

h/o angioedema with ACEI

Question 19

SE of entresto

Answer 19

hypotension and hyperkalemia

Question 20

indication for Hydralazine / Nitrate
in HF?

Answer 20

Class I as addition to ACEi and BB for black pts
In non-black pts, Class IIA as replacement for ACEi or ARB d/t drug intolerance, renal failure

Question 21

what med inhibits the If channel in the sinus node → specifically slows sinus rate

Answer 21

Ivabradine (Corlanor)

Question 22

indication for Ivabradine (Corlanor)

Answer 22

Class IIA indication Approved by the FDA for use in stable patients w/ HF

Question 23

in order to take Ivabradine (Corlanor), the pt must have:

Answer 23

HR ≥70
sinus rhythm
Are taking the max tolerated dose of BB or in pts in whom BB are CI

Question 24

Class IIB indication – beneficial to add after ACEi, BB, and aldosterone antagonist
Greater negative chronotropic effects than ionotropic
May improve HF sx and control ventricular rate in pts with afib

what med?

Answer 24

Digoxin

Question 25

what CCBs have been shown to be safe with use in HF, but not beneficial?
which are harmful in pts with HF and should be avoided?

Answer 25

Amlodipine and Felodipine
Verapamil and Diltiazem - Myocardial depressants / negative inotropic effects

Question 26

what meds to avoid in HF?

Answer 26

1. Antiarrhythmics - Flecainide, Propafenone, Sotalol
2. NSAIDs
3. Thiazolidinediones – Actos (pioglitazone), Avandia (rosiglitazone)

Question 27

what are the preferred antiarrhythics in HF

Answer 27

Amiodarone and dofetilide (Tikosyn)

Question 28

Non-Pharmacologic Management
for HF

Answer 28

1. exercise training - cardiac rehab
2. Cardiac Resynchronization Therapy (CRT)

Question 29

what non-pharm management is recommended in patients with stable NYHA class II to III HF
Lessens sx, increases exercise capacity, improves quality of life, reduces hospitalizations and improves survival

Answer 29

cardiac rehab

Question 30

An effective therapy in patients with HF and ventricular dyssynchrony identified as a prolonged QRS

Answer 30

Cardiac Resynchronization Therapy (CRT)

Can improve exercise tolerance, NYHA functional class, and reduce morbidity and mortality

Question 31

recommendations for Cardiac Resynchronization Therapy (CRT)

Answer 31

LVEF < or = 35%
QRS > 120ms
NYHA class III or IV sx

Question 32

what is used to prevent Sudden Cardiac Arrest (SCA)

Answer 32

implantable cardioverter defibrillator (ICD)

vary based on etiology of cardiomyopathy and whether for primary or secondary prevention

Question 33

what arrhythmia is common in pts with HF and cardiomyopathy

Answer 33

ventricular arrhythmias

Question 34

what is classified as primary prevention for SCA

Answer 34

For those who have not suffered SCD
After optimal medical therapy

Question 35

primary prevention for Ischemic CM and Nonischemic CM

Answer 35

• ICD is recommended for LVEF < 35% with class II or III HF sx and >40 d post-MI or revascularization
• LVEF < 35% with NYHA class II or III HF symptoms, > 90 days post dx, and reasonable likelihood of > 1 yr survival

Question 36

Secondary Prevention for Sudden Cardiac Arrest (SCA)

Answer 36

• Pts with HF and cardiomyopathy who have survived an episode of SCD or have sustained VT without obvious reversible causes are recommended for ICD
• Unexplained syncope - pts with LVEF < 30% and unexplained syncope, recommend ICD

Question 37

What to do while waiting the 90 days in SCA?

Answer 37

• LifeVest – a wearable defibrillator
• Indicated as a bridge to ICD during the waiting period

Question 38

A common and potentially fatal cause of acute respiratory distress

Answer 38

Acute Decompensated HF

May be new HF or an exacerbation of chronic HF
Causes of acute decompensations include medication noncompliance, myocardial ischemia/infarction, tachyarrhythmias, excessive salt intake

Question 39

Acute Decompensated HF is characterized by ?

Answer 39

acute dyspnea with rapid accumulation of fluid

Requires rapid assessment and stabilization

Question 40

Acute Decompensated HF Presentation

Answer 40

acute pulmonary edema
Severe dyspnea, production of pink, frothy sputum
Diaphoresis and cyanosis
inspiratory rales
Wheezes and rhonchi

Question 41

diagnostics for Acute Decompensated HF

Answer 41

1. echo
2. cxr
3. BNP
4. CMP
5. cardiac enzymes
6. CBC
7. EKG

Question 42

Stabilization/management measures for acut decompensated HF?

Answer 42

Airway/oxygenation assessment
VS
Cardiac monitoring
IV access
Diuretic therapy
Vasodilator therapy
Urine output monitoring

Question 43

is Supplemental Oxygen needed for Acute Decompensated HF? how to deliver?

Answer 43

1. Provide if needed, NOT in the absence of hypoxia
   - O2 sat >94% is goal
2. Keep pt seated upright
3. Non-rebreather facemask with high-flow O2
4. NPPV for rsp distress, rsp acidosis and/or hypoxia
   - If fail NPPV or don’t tolerate, intubate

Question 44

Diuretic Therapy for Acute Decompensated HF?

Answer 44

1. Mainstay d/t fluid overload
2. Start ASAP
3. IV > oral
4. Loop first line

Question 45

dosing tips for diuretic therapy in acute decompensated HF?

Answer 45

1. Individualize and titrate based on response
2. If on chronic oral therapy, IV should be at least equal if not greater
3. Peak diuresis occurs 30 min after administration
4. No single regimen has been shown to be superior
   - Bolus vs continuous infusion
   - High vs low dose

Question 46

diuretic effect on renal function in acute decompensated HF?

Answer 46

1. R/o other causes of AKI
2. If severely sx, diuresis is indicated regardless of GFR
3. Reduce dose/hold if elevation and signs of intravascular volume depletion
4. Cardiorenal Syndrome
   - D/t elevated venous pressure and reduced CO
   - Renal function may actually improve with diuresis

Question 47

what is the next step if pt with acut decompensated HF is having inadequate response to diuretic

Answer 47

1. Sodium restriction
2. Water restriction in patients with hyponatremia
3. Addition diuretic
   - Chlorothiazide – only IV thiazide diuretic
   - HCTZ – oral thiazide
   - Metolazone – oral diuretic addition of choice with renal failure
   — Inhibits reabsorption of Na in distal tubules, thereby increasing excretion of water, Na, K and H
   - Aldosterone antagonist – enhances diuresis and minimizes K wasting

Question 48

what is recommended for pts without hypotension and severe symptomatic fluid overload in acute decompensated HF?

Answer 48

Vasodilator Therapy

• Frequent BP monitoring required
• Continuous IV Nitroglycerin or Nitroprusside, or morphine
  — nitroglycerin: Short half-life, well tolerated, Reduces LV filling pressures via venodilation

Question 49

which vasodilator
Potent with both venous and arteriolar effects
Used when pronounced afterload reduction is needed - HTN emergency, acute AR, acute MR

Answer 49

Nitroprusside

Question 50

cautions with nitroprusside

Answer 50

• Metabolizes to cyanide, accumulation/toxicity can be fatal
• reflex tachycardia
• rebound vasoconstriction upon d/c
• Limit to 24 to 48 hrs, esp with renal failure

Question 51

which med for acute decompensated HF

• Highly effective in pulmonary edema
• increases venous & arterial dilation, lowering LA pressure, and relieves anxiety, which can reduce the efficiency of ventilation

Answer 51

morphine

Question 52

Morphine may lead to ? by reducing the ventilatory drive.

Answer 52

CO2 retention

Question 53

Recombinant BNP
Vasodilator with no benefits over nitroglycerin or nitroprusside
Longer half-life, so hypotension and arrhythmias persist longer
Not common - Costly and not sufficient data to support its use

which med?

Answer 53

Nesiritide (Natrecor)

Question 54

additional therapy for Acute Decompensated HF

Answer 54

1. ACEi and ARBs
   - Continue if already on, unless pt has hypotension, AKI or hyperkalemia
   - Initiate new therapy once pt is stable
2. BB
   - If on chronic therapy, and severely decompensated or hypotensive, hold therapy - Otherwise, may continue
   - Initiate new therapy prior to discharge, once pt is stable
3. Inotropic Agents - milrinone, dobutamine
4. Venous Thromboembolism Prophylaxis
   - Heparin, LMWH or Fondaparinux
5. Ultrafiltration
6. Mechanical Cardiac Assistance - Considered for cardiogenic shock

Question 55

Milrinone MOA

Answer 55

phosphodiesterase inhibitor (PDE3) with mostly inotropic properties, but also causes vasodilation

Question 56

Dobutamine MOA

Answer 56

stimulates B1 receptors to increase BP, HR, but also has vasodilation effects

Question 57

indications for inotropic agents?

Answer 57

Indicated for severe LV systolic dysfunction to maintain systemic perfusion and preserve end-organ performance

Question 58

SE of inotropic agents

Answer 58

hypotension (Milrinone), HTN (Dobutamine), and tachyarrhythmias

Question 59

Effective method to remove excess fluid without major hemodynamic compromise and no effect on serum electrolytes in acute decompensated HF

Answer 59

Ultrafiltration

Uses peripheral venous access and small blood volume, compared to hemodialysis

Question 60

2 major Mechanical Cardiac Assistance devices:

Answer 60

Intraaortic balloon counterpulsation
Internally implanted left ventricular assist device

Question 61

indications for Mechanical Cardiac Assistance

Answer 61

Cardiac index (CI) <2.0 L/min per m2
systolic arterial pressure (SAP) <90 mmhg
PCWP >18 mmhg

Question 62

Clinical signs of reduced CO in cardiogenic shock

Answer 62

Cool extremities, weak distal pulses, altered mental status, and diminished urinary output (< 30 mL/h)

Question 63

Hemodynamic findings in cardiogenic shock include:

Answer 63

Hypotension
PCWP > 15 mmHg which excludes hypovolemia
Cardiac index < 2.2 L/min/m2

Question 64

What is Cardiac Index?

Answer 64

CO/min/BSA
Provides info on LV function
Normal CI ranges from 2.6 to 4.2 L/min/m²x

Question 65

The principle feature of cardiogenic shock is

Answer 65

hypotension with evidence of end-organ hypoperfusion

Question 66

main pathophys of cardiogenic shock is a result of ?

Answer 66

tachycardia and increased myocardial contractility and peripheral vasoconstriction

Question 67

labs for cardiogenic shock (not diagnostics)

Answer 67

• Elevated cardiac enzymes in presence of MI
• Elevated CR, ALT, AST in renal and hepatic hypoperfusion
• coag abnormalities in hepatic congestion / hypoperfusion
• Anion gap acidosis and / or serum lactate elevation
• BNP for degree of fluid overload

Question 68

diagnostics for cardiogenic shock

Answer 68

EKG for underlying cause (MI, arrhythmia)
Stat TTE
CXR for cardiomegaly, pulmonary congestion

Question 69

procedures for Cardiogenic Shock

Answer 69

1. UA w/ insertion of foley catheter for UO measurement
2. +/- Pulmonary artery catheter placement
   - Consider if dx is questionable, pt on inotropes/pressors, or pt not responding to tx
3. +/- L heart cath

Question 70

tx for cardiogenic shock

Answer 70

1. Oxygen; intubation, ventilation
2. Vasopressors/inotropes; consider careful IV fluids, arterial line and pulmonary artery catheter insertion to guide management; correct underlying causes of acidemia
3. +/- Intra-aortic balloon pump
4. Suspected MI → ASA, Heparin, Urgent Cath, Revascularize (PCI, CABG, Fibrinolysis)

Question 71

Utilizes a Swan Ganz Catheter which is placed through a central line in the internal jugular, subclavian, or femoral veins
Provides an indirect estimate of left atrial pressure (LAP)
(cardiogenic shock)

Answer 71

Pulmonary Capillary Wedge Pressure
Invasive and associated with risks, so not always done

Question 72

what med Increases the contractility of the heart, the heart rate, and peripheral vascular tone
also increase myocardial oxygen demand

Answer 72

Inotropic/Vasopressor Agents

Question 73

which Inotropic/Vasopressor Agents can precipitate tachyarrhythmias

Answer 73

B-agonists

Question 74

which inotropic/vasopressor agents can lead to dangerous vasoconstriction and ischemia in vital organ beds

Answer 74

α-agonists

Question 75

Dopamine is qualitatively different effects at varying doses

Answer 75

• Low doses (< 3 mcg/kg/min) → predominantly dilate the renal arterioles/ vascular bed
• Intermediate doses (3-6) → β1-receptor stimulation and enhanced myocardial contractility
• Higher doses → α-receptor stimulation (peripheral vasoconstriction) in addition to continued β1 stimulation and tachycardia

Question 76

Dobutamine has strong β1 and weak β2/α effects, which results in

Answer 76

increased cardiac output, blood pressure, and heart rate, as well as decreased peripheral vascular resistance

Question 77

Dobutamine, a synthetic sympathomimetic agent that differs from dopamine in two important ways:

Answer 77

It does not cause renal vasodilation
It has a much stronger β2 (arteriolar vasodilatory) effect

Question 78

which Inotropic/Vasopressor Agents

Strong β1 and α-adrenergic effects and moderate β2 effects
Increases CO and HR, decreases renal perfusion, decreases peripheral vascular resistance
BP effects are variable
Typically added to another Inotropic/Vasopressor Agents
if pt continues to be hypotensive

Answer 78

Norepinephrine (Levophed)

Typically added to Dopamine if patient continues to be hypotensive

Question 79

Inotropic/Vasopressor Agent should be administered through what?
consequences if not?

Answer 79

central line

Peripheral extravasation into surrounding tissue can lead to vasoconstriction and skin necrosis

Question 80

which circulatory support device

Temporary support system
pt must be anticoagulated with IV heparin d/t risk of thrombosis
Benefits of decreased afterload without increases in myocardial demand

Answer 80

Intra-aortic Balloon Pump (IABP)

Question 81

which circulatory support device is typically used as a bridge to cardiac transplant

Answer 81

LVAD