heart failure

Question 1

Heart failure general info

Answer 1

when CO is inadequate to provide the oxygen needed by the body

Question 2

Heart failure classifications

Answer 2

1. Ejection fraction
2. Symptoms

Question 3

Ejection fraction

heart failure classifications

Answer 3

1. Systolic heart failure
   * reduced EF (less than 40)
   * HFrEF- Heart failure reduce ejection fraction
   * impaired cardiac contractility
2. Diastolic heart failure
   * normal EF
   * HFpEF- heart failure preserved ejection fraction
   * increased myocardial stiffness or an inability of the heart to relax in the absence of reduced contractility

Question 4

Symptoms

heart failure classifications

Answer 4

Acute Heart failure- not stable
Chronic heart failure- stable

Question 4

Symptoms

heart failure classifications

Answer 4

Acute Heart failure- not stable
Chronic heart failure- stable

Question 5

Goals of tx for heart failure

Answer 5

1. improve patient’s quality of life
2. reduce symptoms–> (SOB, Nocturia, Fluid retention, Nausea due to edema of the gut)
3. slow progression during stable periods
4. prevent or minimize hospitalizaitons
5. manage acute episodes of decompensated failure
6. Prolong survival

Question 6

Goals of tx for heart failure

Answer 6

1. improve patient’s quality of life
2. reduce symptoms–> (SOB, Nocturia, Fluid retention, Nausea due to edema of the gut)
3. slow progression during stable periods
4. prevent or minimize hospitalizaitons
5. manage acute episodes of decompensated failure
6. Prolong survival

Question 7

General therapeutic approach to chronic heart failure

Answer 7

1. determine cause and correct causative factors (tx htn or comorbitities, exercise, weight loss)
2. sodium and fluid restriction
3. drugs
4. devices

Question 8

pathophys of heart failure factors affecting cardiac function

Answer 8

• cardiac contractility
• cytokines
• heart rate and rhythm
• myocardial relaxation
• renin-angiotensin sys
• sympathetic nervous sys
• ventricular preload and afterload

affect targets

Question 8

pathophys of heart failure factors affecting cardiac function

Answer 8

• cardiac contractility
• cytokines
• heart rate and rhythm
• myocardial relaxation
• renin-angiotensin sys
• sympathetic nervous sys
• ventricular preload and afterload

affect targets

Question 9

Chronic systolic heart failure

general therapies BAD CAVA

Answer 9

• diuretics
• vasodilators, neprilysin inhibitor
• beta blocker
• aldosterone receptor antagonists
• Angiotensin-converting enzyme inhibitors (ACE INHIBITORS)
• angiotensin receptor blockers (ARBs)
• Cardiac glycosides (Digoxin)

Question 10

Acute heart failure

Answer 10

• VID

temporary and trying to stabilize

Question 11

heart failure stages

Answer 11

A: Risk factors- at risk without current or previous symptoms= HTN, CVD, diabetes, obesity, exposure to cardiotoxic agents
B: Structural (Pre heart failure)- evidence of increased filling pressures, RF + high NP or High cardiac troponin
C: Symptoms (symptomatic heart failure)
D: Not responding to drugs- symptoms that interfere with daily life and recurrent hospitalizations (advanced heart failure)

Question 12

Stage A

at risk

what pts and meds?

Answer 12

at high risk for heart failure without structrual heart disease or symptoms

PT w/: HTN, atherosclerotic disease, diabetes, obesity, cardiotoxins, fam hist

TX:
1. Sodium glucose co transporter= TYPE 2 DIABETES AND EITHER CVD OR HIGH RISK CARDIOVASCULAR RISK

Question 13

Sodium-glucose Cotransporter 2 inhibitor

Stage A

indications, Common SE

Answer 13

Dapaglifozin (Faxiga) and Empagliflozin (Jardiance)
Indications:
* pt with heart failure with Reduced ejection fraction
* pt with Type 2 DM with estabilshed cardiovascular disease
* Pt with Type 2 DM to improve glycemic control

SE:
Hypoglycemia, dehydration, vaginal and penile yeast infection (bc pee out glucose)

Question 14

Farxiga MOA

Dapaglifozin, Sodium glucose cotransporter 2 inhibitor

Answer 14

Sodium glucose cotransporter 2= in proximalrenal tubules= responsible for reabsorp of glucose and sodium

excrete glucose= yeast infections

Question 15

Stage B Pre- Heart failure

structural heart disease without S&S of failure

indications and therapy

Answer 15

Indications:
* Pt with previous myocardial infarction
* left ventricular remodeling (including LV hypertrophy and low EF)
* Asymptomatic valvular disease

Tx:
1. Sodium glucose Co-transporter 2 inhibitor (Diab only)
2. Angiotensin converting enzyme inhibitors (ACE inhibitors) or Angiotensin receptor blockers (ARBs)
3. beta blockers
4. statins

Question 16

Stage B: Pre- heart failure tx

INDICATIONS BASS

Answer 16

KNOW THIS

Question 17

Angiotensin converting enzyme inhibitors

ACE inhibitors

-pril

Answer 17

1. Lisinopril (Zestril)
2. Enalapril (Vasotec)
3. Quinapril (Accupril)
4. Ramipril (Altace)

Question 18

Indications for ACE inhibitors PPHHD

Answer 18

1. HTN- adult and pediatric
2. Heart failure- 1st line for pt with Low Ejection Fractions as it has proven to reduce mortality
3. Post myocardial infarction- 1st line for all pts as proven to reduce mortality
4. Diabetes mellitus and those at risk for vascular disease- 1st line
5. Proteinuria- 1st line

Question 19

ACE benefits in Heart failure SAVVE BAP

Answer 19

1. Improve survival benefit in pt with heart failure and systolic dysfunction= due to inhibit aldosterone and angiotensin 2
2. improve exercise tolerance
3. Provide balanced vasodilation (arteries and veins)
4. Reduce Blood pressure
5. prevents left ventricular remodeling
6. reduce aldosterone secretions-> less retention-> reduction of preload
7. reduced periph res-> reduction in afterload
8. reduc angiotensin levels-> less symp activity-> by decreasing angiotensin presynaptic effects on norepinephrine release

Question 20

ACE inhibitors MOA

Answer 20

MOA: Inhibit the angiotensin-converting enzymein the vascular endothelium of the lungs

Target: RAAS

MOA starred

Question 21

ACE inhibitors MOA

Answer 21

MOA: Inhibit the angiotensin-converting enzymein the vascular endothelium of the lungs

Target: RAAS

MOA starred

Question 22

ACE inhibitors AE HACH

Answer 22

1. COUGH- secondary to increased bradykinin
2. Angioedema- 2ndary to increased bradykinin
3. Hyperkalemia
4. Hypotension-> dizziness
5. headaches, rash, drug fever

Contraindications: Pregnancy (teratogenic) and bilateral renal artery stenosis

Question 23

ACE inhibitors- drug interactions

Answer 23

1. Potassium sparing diuretics and potassium supplements= increased risk of hyperkalemia= MONITOR POTASSIUM
2. bactrim + ACE= increased hyperkalemia= MONITOR POTASSIUM
3. Nsaids= antagonism
4. lithium= increases levels
5. additive effects with other antihypertensives

Question 24

Angiotensin Receptor Blockers (ARBs)

-artan

indications, names

Answer 24

use of an ARB is recommended if a pt cannot tolerate one of the SE of the ACE inhibitor= cough

Indications:
* heart failur
* Hypertension
* Diabetic Nephrothy

Medication:
* Candesartan (atacand)
* Irbesartan (Avapro)
* Losartan (Cozaar)
* Valsartan (Diovan)

Question 25

ARBs MOA

Answer 25

MOA: Block the binding of angiotensin 2 to the angiotensin-1 (AT1) receptor (type 1)

Target: RAAS

Question 26

ARBs inhibitors AE and drug interactions

Answer 26

Effects similar to ACE inhibitors except no bradykinin effects
* hypotension
* hyperkalemia

MONITOR CREATININE AND POTASSIUM LEVELS

Drug interactions:
* antagonized by NSAIDS
* potentiate Calcium channel blockers, Digoxin, Lidocaine
* Lithium increase levels

Question 27

Adrenoceptors

Answer 27

1. Adrenal glands synth Catecholamines: Dopamine, Norepinephrine, Epinephrine
2. Catecholamines act as neurotransmitters and hormones-> maintain homeostasis in multiple different ways within the body
3. Receptors that respond to catecholamines are names ADRENOCEPTORS
4. Types of adrenoceptors: alpha 1 type, alpha 2 type, Beta type, Dopamine type
5. Receptors- drugs act as agonists and antagonists

Question 28

Adrenoceptors types and what they cause

Answer 28

Question 29

Catecholamines

Answer 29

Norepinephrine and epinephrine
* via Beta 1 receptors: increase the force and rate of contraction of the heart
* Myocardial excitability-> extrasystoles-> serious cardiac arrhythmias

Norepinephrine
* Alpha 1 receptor: Vasoconstriction
* Systolic and diastolic bp rise when infused slowly

Epinephrine
* Beta 2 receptor: dilates the BV in skeletal muscle and liver
* widening pulse pressure-> increase of cardiac rate and output

Question 30

Beta type Adrenoceptors

types, what they do, then what Beta blocker does

Answer 30

types of Beta receptors:
1. Beta 1= heart, lipocytes, brian juxtaglomerular apparatus of renal tubules
2. B2= bronchial smooth musc and some cardiac muscle
3. B3= muscle of bladder and induces relaxation

Effects:
1. Activation
2. Stim adenylyl cyclase
3. Increased intracellular levels of cAMP
4. cAMP causes cascade
* liver: activation of glycogen phosphorylase
* heart: increases influx of calcium across the cell membrane
* smooth musc: promotes relaxation

Beta blocker= binds to receptor that inhibits Adenylyl cyclase that would increase cAMP which would activate the pump for CAlcium to enter the body and contract muscle

Beta blocker= decreases Calcium that slows heart to relax and fill effectively to pump to body

Question 31

Beta blockers overview

objective

Answer 31

Question 32

Beta blockers

common clinical uses, AE, Interactions

Answer 32

Clinical uses:
* HTN
* Heart failure
* Arrythmias
* Angina
* Post MI

AE:
* Hypotension
* Heart block
* bradycardia
* Fatigue- sedation
* SEXUAL DYSFUNCTION
* depression
* exercise impairment
DEPRESSED COCK BLOCK O BRADY

Interactions:
* with other cardiac drugs-> hypotension, and iatrogenic heart failure

Question 33

Beta Blockers and Heart failure

meds and why we use them, relative contraindications

Answer 33

Meds:
* Carvedilol
* Metoprolol (sustained release)
* Bisoprolol

Why we use?
* Excessive tachy and ae of high catecholamine levels
* B1 antagonist in kidney= decreases renin release
* Prevent myocardial remodeling
* Mortality benefit in pts with chronic heart failure
TRRM

Relative contraindications: risk vs reward
* asthma/COPD
* AV Block
* Bradycardia
* Labile diabetes
CAL

Question 34

Advantage of Beta blockers in compensated heart failure

Answer 34

1. improve ventricular function
2. improve exercise tolerance
3. decrease oxidative damage
4. slow progression of heart failure

not used in decomp bc of acute negative inotropic effects= weaken the heart’s contractions and slow the heart rate

Question 35

Stage C symptomatic heart failure

Structural heart disease with prior or current Symptoms of Heart failure

Goals, Drugs, drugs for selected pts

Answer 35

Goals:
* control symptoms
* pt education
* prevent hospitalization
* prevent mortality

Drugs:
* Sodium glucose co-transporter 2 inhibitor
* Renin angiotensin system blocker
* beta blockers
* Diuretics for fluid retention
* MIneralocorticoid antagonists (MRAs/Aldosterone antagonists)

Drugs for selected pts:
Hydralazine/Isosorbide dinitrate

Edema, SOB, wheelchair

Question 36

Chronic Systolic Heart failure= reduced Ejection Fraction

1st line agents

Answer 36

1. Diuretic
2. Sodium glucose cotransporter 2 inhibitor
3. Renin angiotensin system blocker
   * ARNI
   * ACE inhibitor
   * ARB
4. Beta blocker
   DR BS
   | MOST DATA FOR PHARM AGENTS

Question 37

Chronic Systolic Heart failure= reduced Ejection Fraction

1st line agents

Answer 37

1. Diuretic
2. Sodium glucose cotransporter 2 inhibitor
3. Renin angiotensin system blocker
   * ARNI
   * ACE inhibitor
   * ARB
4. Beta blocker

MOST DATA FOR PHARM AGENTS

Question 38

Angiotensin Receptor Neprilysin inhibitor (ARNI)

meds, black box, Indications, SE

Answer 38

Meds: Valsartan/Sacubitril (Entresto)
Black box warning: fetal toxicity
Indications:
* Reduce risk of cardiovasc death and hospitalization for heart failure in pts with chronic heart failure and reduced ejection fraction STAGE C ONLY
* TX OF SYMPTOMATIC HEART FAILURE WITH SYSTEMIC LEFT VENTRICULAR SYSTOLIC DYSFUNCTION IN PEDS

SE:
* hypotension
* dizziness
* worsening kidney fxn
* hyperkalemia
SIMILAR TO ACE AND ARB

Allows BNP to work bc neprilysin breaks it down
1. sodium and fluid excretion
2. myocardial relaxation
3. inhibit hypertrophy and fibrosis
4. supress sympathetic outflow
5. stim vasodilation

DO NOT GIVE WITH ACE INHIBITORS OR ARBS SINCE VALSARTAN IS AN ARB

Question 39

Angiotensin Receptor Neprilysin inhibitor (ARNI)

meds, black box, Indications, SE

Answer 39

Meds: Valsartan/Sacubitril (Entresto)
Black box warning: fetal toxicity
Indications:
* Reduce risk of cardiovasc death and hospitalization for heart failure in pts with chronic heart failure and reduced ejection fraction STAGE C ONLY
* TX OF SYMPTOMATIC HEART FAILURE WITH SYSTEMIC LEFT VENTRICULAR SYSTOLIC DYSFUNCTION IN PEDS

SE:
* hypotension
* dizziness
* worsening kidney fxn
* hyperkalemia
SIMILAR TO ACE AND ARB

Allows BNP to work bc neprilysin breaks it down
1. sodium and fluid excretion
2. myocardial relaxation
3. inhibit hypertrophy and fibrosis
4. supress sympathetic outflow
5. stim vasodilation

DO NOT GIVE WITH ACE INHIBITORS OR ARBS SINCE VALSARTAN IS AN ARB

Question 40

Sodium removal

Answer 40

Maintstay of tx in symptomatic heart failure
1. Diuretics- lasix- 1st line to help feel good
2. Dietary salt restriction= reasonable to reduce congestive symptoms

removal of sodium leads to los of potassium
* potassium supplementation
* add ACE inhibitor bc hyperkalemia
* potassium sparing diuretics

Question 41

Diuretics for heart failure

general principles

Answer 41

agents/meds that increase urine volume
* reduce heart failure symptoms-> do not improve survival (star)
* reduce venous pressure and preload
* reduce cardiac size-> improved pump efficacy
* sodium excretion has slight vasodilating effect

Question 42

Aldosterone antagonists

Potassium sparing diuretics

MOA and meds

Answer 42

MOA: Antagonists of the effects of aldosterone in collecting tubules
1. direct antagonism of mineralcorticoid receptors= spironolactone and Eplerenone
2. inhibit sodium entrance via ion channels in luminal mem= Amiloride and triamterene

Meds:
* Spironolactone (aldactone)
* binds to androgen receptor= abnormal menstraul cycles, gynecomastia (male mammary enlargement), decreased libido

Question 43

Why target aldosterone?

Answer 43

1. increases resorption of sodium, water, renal excretion of potassium
2. causes myocardial and vascular fibrosis

Question 44

Advantages of Spironolactone in heart failure

Answer 44

Proven improvement in mortality statistics
* blocks effects of aldosterone-> NA/Fluid secretion, Potassium reabsorption, prevents myocardial fibrosis (reduce likelihood of arrhythmia), reduce vascular fibrosis
* prevent myocardial remodeling which improves heart function

Question 45

Summary of diuretics in heart failure

Answer 45

Question 46

Vasodilators for heart failure: categories

Answer 46

1. Selective arteriolar dilators-> reduces afterload= Hydralazine- pts with fatigue and low LV output
2. Selective venous dilators-> reduces preload= Isosorbide dinitrate- angina
3. Nonselective (mixed) vasodilators= Isosorbide dinitrate/Hydralazine (Bidil)- Indications= adjunct therapy in African Americans with heart failure= DIDNT RESPOND TO ARB, ARNI, ACE

Question 47

2ND LINE- positive inotropes

increase strength of contraction, SV, CO

Answer 47

1. increased cytoplasmic calcium concentration
2. increased cardiac contractility
3. increased CO

Meds:
1. Cardiac glycosides
2. Beta agonists
3. phosphodiesterase inhibitors

Question 48

Cardiac glycoside (Digitalis): Digoxin

2nd line- positive inotropic

indication, MOA, benefits

Answer 48

Indications: Heart failure (when diuretics and ACE inhibitors have failed) and Atrial fibrillation
MOA: Inhibits Na+K+ATPase enzyme (sodium pump) in the myocyte-»> increases intracellular sodium leading to increased calcium-» increased cardiac contractility
* slows conduction velocity through AV node-> Atrial Fibrillation

Benefits of digoxin therapy:
1. increased cardiac-> increased stroke volume and CO
2. slows the rate and vasodilates
3. decreases preload with improved renal dynamics

Question 49

Digoxin toxicity

Answer 49

Toxicity:
Narrow therapeutic index: goal is 1 ng/ml, 2 is toxic
High variability
High plasma protein binding
70% renal excretion-> must monitor creatinine
MUST MONITOR ELECTROLYTES REGULARLY: POTASSIUM, CALCIUM, AND MAGNESIUM- Bc messing with Pump

Signs of toxicity:
1. GI symptoms first
2. Visual disturbance- yellow/green haloes, fuzzy

Managing:
Mild: reduce dose, discontinue potassium depleting drugs, give K+
Severe: administer Digibind- digoxin specific antibody, insert temp pacemaker

Question 50

Digoxin drug interacitons

Answer 50

increased levels:
* amiodarone
* spironolactone

Decreased levels:
* Rifampin
* Metoclopramide

highlighted

Question 51

Sinus node inhibitor

indications, MOA, SE

Answer 51

Ivabradine (Corlanor
Indications:
1. pt with heart failure w/ persistent heart rate of equal to or >70 bpm with a maximally tolerated beta blocker dose

MOA: slows heart rate by inhibitig cardiac pacemaker current

SE: transitory bright lights and bradycardia

Question 52

Diastolic heart failure- Heart failure preserved ejection fraction

goal, tx

Answer 52

Goal: prevent symptoms and decrease hospitalizations
TX:
1. Diuresis to relieve symptoms of congestion
2. Follow guideline driven indications for comorbidities
3. some therapies that may be useful in reducing risk of hospitalization (but not mortality): sodium glucose cotransporter 2 inhibitor and a Mineralocorticoid Receptor Antagonist (MRA)

Question 53

Acute Decompensated heart failure agents

Answer 53

ALL IV
IV diuretics
IV vasodilators
IV inotropes

Question 54

Acute decomp heart failure: Positive Inotropic drugs

Answer 54

Bipyridines-> Milrinone
* MOA: inhibits phophodiesterase-> increase in cAMP, increase in contractility and vasodilation
* indicated for acute heart failure

Beta-adrenoceptor agonists
* Dobutamine: increases contractility and decreases afterload
* Dopamine: activates beta and alpha receptors

Question 55

Acute decompensated heart failure: Vasodilators

Answer 55

Reduction in afterload-> improve ejection fraction
1. Nitroprusside = arteriolar and venodilator
2. Nitroglycerine= reduces preload
3. Nesiritide= only in acute heart failure

Question 56

Cardiogenic shock

Goal, agents used

Answer 56

Goal: manage hypoperfusion and hypotension

Agents:
1. manage fluid status= diuretics vs fluid administration
2. Vasopressors and inotropes= augment both coronary and cerebral blood flow
* Norepinephrine
* Dopamine
3. Irreversibly inhibit platelet aggregation (ASA) may improe morbidity

just a reference