Heart Failure (Inadequate perfusion) (1)

1. Right-sided Heart Failure

1.1. Cor Pulmonale

1.1.1. (COPD) Chronic Obstructive Pulmonary Disease

1.1.2. Obstructive Sleep Apnea

1.1.3. Pulmonary Hypertension

1.1.4. Pulmonary Embolization

1.2. Decompensated HF

1.2.1. Hypertrophy

1.2.1.1. Decrease lumen size

1.2.1.2. fails to increase contractility

1.2.2. Exacerbation of HR

1.2.2.1. Increase oxygen demand

1.2.2.2. Decrease contractility

2. Restrictive Cardiomyopathy

2.1. Cardiac muscle becomes stiff

2.1.1. Infiltration with abnormal cell/substances

2.1.2. Excessive deposition of metabolic by-products

2.1.3. Direct fibrosing injury

2.2. During Diastole (cannot relax properly) inadequate filling of the heart with blood

2.2.1. Atria becomes dilated/enlarged

2.2.2. Increased pulmonary and sysemic congestion

2.2.3. Increases HR, Heart is unable to adequately increase CO

2.3. Systolic function normal

2.4. slight ventricular dilation or thickening

3. Risk factors (objective)

3.1. Metabolic Syndrome

3.2. Obesity

3.3. Sedentary lifestyle

3.4. Hereditary risk for HF

3.4.1. Family History of cardiomyopathy

3.5. Coronary artery disease

3.6. Diabetes mellitus

3.7. Hypertension

4. Pathophysiologic mechanisms

4.1. Compensatory mechanism decreased Cardiac Output

4.1.1. Decreased cardiac output (CO)

4.1.1.1. Compensation to CO

4.1.1.1.1. Activation of sympathetic NS

4.1.1.1.2. Activation of Renin-anginotensin-aldosterone system

4.1.1.1.3. Increased Antidiuretic horomone release

4.1.1.1.4. Increase Atrial natriuretic peptide/brain natriuretic peptide (BNP) release

4.1.2. Decreased perfusion

4.1.3. Decreased stroke volume (SV)

4.1.3.1. Compensation to increase SV

4.1.3.1.1. Increase cardiac output

4.1.3.1.2. Increase Afterload and Preload

4.1.3.1.3. Prevent the development of symptoms

4.1.3.1.4. Cardiac remodeling (Hypertrophy)

4.1.4. Increases pulmonary vessel pressures

4.2. Neurohormonal mechanisms

4.2.1. Increase Heart rate

4.2.2. Arterial and venous (vasoconstriction) maintain BP

4.2.3. Increase Blood volume; Increase ventricular filling

4.3. Frank-Starling mechanism

4.3.1. Increased venous return

4.3.2. Greater ventricular filling

4.3.3. Increased stroke volume

5. Development of signs and symptoms

5.1. Increases left ventricular end-diastolic pressures (LVEDP) and atrial pressure

5.1.1. Increase pulmonary capillary pressure

5.1.2. Transduation of fluid

5.1.3. pulmonary edema

5.1.4. Dyspnea

5.2. Right ventricular dysfuction dysfuction increased venous congestion

5.2.1. Jugular venous distention

5.2.2. Increased hydrostatic pressure

5.2.2.1. transduation of fluid from capillaries

5.2.2.2. Peripheral edema

5.2.3. Hepatic congestion

5.2.3.1. Liver injury (congestive hepatopathy)

5.2.3.2. Cirrhosis

5.3. Acute kidney injury

5.3.1. Inadequate blood pressure

5.3.2. decrease renal perfusion

5.3.3. progressive chronic disease (cardiorenal syndrome)

5.4. Inability to supply blood to other areas

5.4.1. Confusion

5.4.2. Fatigue

5.4.3. Diaphoresis

6. Classification of Heart Failure

6.1. Stage A= At risk for heart failure w/o any symptoms or structural heart disease

6.2. Stage B= Patients have structural heart disease but do not exhibit symptoms of heart failure

6.3. Stage C= Patients with structural heart disease who currently experience or have previously experienced symptoms of heart failure

6.4. Stage D= Patients with advanced heart failure who exhibit severe symptoms and are often hospitalized despite optimal medical therapy.

6.5. New York Heart Association Functional

6.5.1. Class I= No limitation of physical activity

6.5.2. Class II= Slight limitation of physical activity

6.5.3. Class III= Marked limitation of physical activity

6.5.4. Class IV= Severe limitation

6.6. Ejection fraction

6.6.1. Preseved Ejection Fraction (HFpEF)

6.6.1.1. Inadequate relaxtion and filling

6.6.1.2. normal myocyte contractility

6.6.1.3. Perseved EF despite low SV

6.6.1.4. LVEF> or equal to 50%

6.6.2. Midrange Ejection Fraction (HFmrEF)

6.6.2.1. Known in Europe as HF with mildly reduced EF

6.6.2.2. LVEF between 41% and 49%

6.6.3. Reduced Ejection Fraction (HFrEF)

6.6.3.1. Ischemic heart disease

6.6.3.2. dilated cardiomyopathy

6.6.3.3. Mitral insufficiency

6.6.3.4. EF is dimminished

6.6.4. HF with improved EF (HFiEF)

6.6.4.1. LVEF was previously < equal to 40%, but on follow up assessment is betteEF (>40 %)

6.7. Areas affected

6.7.1. Left sided HF anormalities

6.7.1.1. Left ventricle

6.7.1.2. aortic valve

6.7.1.3. mitral valve

6.7.2. Right sided HF abnormalities

6.7.2.1. Right ventricle

6.7.2.2. tricuspid valve

6.7.2.3. pulmonic valve

6.7.3. Left and Right occuring at the same time

6.7.3.1. Biventricular

7. Assessment and Exam findings

7.1. Left sided HF

7.1.1. S3 heart sound (low-pitched sound in early diastole)

7.1.2. Cyanosis (poor perfusion)

7.1.3. Crackles or Rales lungs sounds

7.2. Right sided HF

7.2.1. Jugular venous distention

7.2.2. Hepatojugular reflux

7.2.3. Hepatosplenomegaly

7.2.4. Ascites

7.2.5. Symmetric and /or pitting lower-extremity edema

7.2.5.1. Volume overload

7.2.5.2. Skin induration

7.2.6. S4 Heart sounds

8. Diagnosis

8.1. Clinical Evaluation

8.1.1. Signs and symptoms of Congestion

8.1.1.1. Left sided symptoms

8.1.1.1.1. Fatique

8.1.1.1.2. Dyspena

8.1.1.1.3. Exercise intolerance

8.1.1.1.4. Cough

8.1.1.1.5. Pulsus alternans (alternating strong and weak pulses)

8.1.1.2. Right sided symptoms

8.1.1.2.1. Dyspena

8.1.1.2.2. Fatique

8.1.1.2.3. Nausea

8.1.1.2.4. Abdominal Distention

8.1.2. Fluid retention and/or hypoperfusion

8.1.3. Impairment functional capacity

8.1.4. Percipitating factors casue exacerbation to increase cardiac workload

8.1.5. Family history of cardiac disease

8.2. Evidence of cardiac dysfunction

8.2.1. Echocardiography evidence of cardiac dysfunction

8.2.2. Cardiac catheterization

8.3. Laboratory test/imaging studies

9. Patient education

9.1. Lifestyle modifications

9.1.1. Weight loss

9.1.1.1. weight monitoring if >5 lb weight gain, consult a physician

9.1.1.2. Exercise contraindicated if decompensating )

9.1.2. Restriction of sodium to 3g/day

9.1.3. Restriction of fluids to 1.5-2 liters per day in volume overload/edema

9.1.4. Cessation of smoking and alcohol consumption

9.1.5. Avoid illicit drug use

9.2. Avoid drug that trigger exacerbation

9.2.1. NSAIDs

9.2.2. Thiazolidinediones

9.2.3. Antidepressants (tricyclic)

9.2.4. Trimethoprim-sulfamethoxazole (increase patassium when taken with drugs for HF)

9.2.5. Nondihydropyridine calcium channel blockers

9.2.6. Phosphodiesterase-3

9.2.7. Cardiotoxic chemotherapy

9.2.8. Antiarrhythmics (class 1C and dronedarone) negative inotropic effect

9.2.9. Dipeptidyl peptidase-4 inhibitors (alogliptin, saxagliptin)

9.2.10. Tumor necrosis factor-alpha inhibitors

9.3. Keep immunizations current

9.3.1. Pneumococcal polysaccharide vaccine

9.3.2. Annual influenza vaccine

10. Effects on Systems

11. Diagnostic tests

11.1. Echocardiography

11.2. Electrocardiography (ECG)

11.2.1. Evaluates for evidence of current ischemia

11.2.2. Detects abnormalities in cardiac rhythm and conduction

11.2.3. Show evidence of cardiomyopathy or prior MI

11.2.3.1. Increased QRS voltage in leads 1 and aVL

11.2.3.2. Q waves

11.2.3.3. St- and T-wave abnormalities

11.3. Transthoracic echocardiography (TTE) with Doppler imaging

11.3.1. Measures ejection fraction and assesses cardiac anatomy

11.3.2. Detects abnormalities in valves, myocardium, and pericardium

11.4. Cardiac magnetic resonance imaging (CMR)

11.4.1. Detects damaged myocardium

11.4.2. Fibrosis

11.4.3. Detects Myocardium infarction (acute and chronic)

11.4.4. Detects infiltrated and inflammatory disease

11.5. Multigated acquistion scan (radionuclide ventriculography)

11.5.1. Most accurate way to assess ejection fraction

11.5.2. Obtain baseline assessment of ventricular function

11.5.3. Monitor cardiotoxicity of anthracyclines (chemotherapy)

11.6. Cardiopulmonary exercise testing (CPET)

11.6.1. Detect ischemic heart disease

11.6.2. Assess appropriatness of advanced treatment such as transplantation

11.6.3. Assess maximal oxygen uptake (VO2) to estimate the severity of myocardial dysfunction

11.7. Chest X-ray

11.7.1. ABCDE finidings on CXR

11.7.1.1. A: alveolar edema (batwing)

11.7.1.2. B: Kerley B lines

11.7.1.3. C: Cardiomegaly

11.7.1.4. D: dilated upper lobe vessels

11.7.1.5. E: pleural effusion

11.7.2. Pulmonary edema

11.7.3. Pulmonary vascular congestion

11.7.4. Cephalization of vessels

11.8. Cardiac catheterization

11.9. Laboratory test evaluation

11.9.1. Cardiac markers

11.9.1.1. BNP/N- terminal pro BNP (NT-proBNP) levels

11.9.1.1.1. BNP >400 pg/mL

11.9.1.1.2. Pro-BNP

11.9.1.1.3. Variation in subpopulation

11.9.1.1.4. Noncardiac elevated levels

11.9.1.2. Troponin

11.9.1.2.1. Determined presence of acute coronary syndrome

11.9.1.2.2. Obtained in the emergency setting of acute decompensated heart failure

11.9.2. Additional lab studies

11.9.2.1. CBC

11.9.2.1.1. Anemia casuses high-output (Cardiac Failure)

11.9.2.1.2. Hemoglobin <8mg/dl impaired delivery of oxygen

11.9.2.2. BUN and creatinine

11.9.2.2.1. >20 prerenal failure worse prognosis

11.9.2.2.2. Increased BUN increased mortality

11.9.2.2.3. Increase of >0.3 mg/dL in creatinine increased mortality

11.9.2.3. Electrolytes

11.9.2.3.1. Hyponatremian worse prognosis

11.9.2.3.2. Sodium <137 mEq/l decrease survival

11.9.2.4. Bilirubin

11.9.2.4.1. Elevated total bilirubin worse prognosis (congestive hepatopathy)

11.9.2.5. Albumin

11.9.2.5.1. Hypoalbuminemia worse prognosis

11.9.2.6. Lipid panel

11.9.2.6.1. Increase Lipids

11.9.2.6.2. Increase risk for atherosclerotic cardiovascular disease.

11.9.2.7. Serum aminotransferase levels

11.9.2.7.1. reflects liver function

11.9.2.8. Thyroid function test

11.9.2.8.1. Hyperthyroidism

11.9.2.8.2. Hypotheroidism

11.9.2.8.3. these can lead to or contirbute to severe heart failure

11.9.2.9. Fasting glucose and hemoglobin A1c

11.9.2.9.1. Diabetes mellitus is a common comorbidity

12. Medications/Treatments

12.1. Etiology testing

12.1.1. Cardiac stress tset can assess functional impairment due to coronary heart diseae

12.1.1.1. Exercise ECG testing completed with treadmill exercise

12.1.1.2. Radionuclide myocardial perfusion imaging (rMPI) completed with exercise or pharmacologic stress

12.1.1.3. Stress echocardiograghy completed with exercise or pharmacologic w/o radiation exposure

12.1.2. Coronary angiography Gold standar for diagnosing coronary artery stenosis

12.1.2.1. Measures CO, the dgree of left ventricular dysfunction, LV end diastolic pressure

12.1.2.2. Invasive procedure that carries risk of arrhytmias, storke, and atheroemboli

12.1.2.3. Diagnostic as well as therapeutic procedure (revascularization can be done)

12.1.3. Endomyocardial biopsy

12.1.3.1. Invasive procedure with risk

12.1.3.1.1. Cardiac tamponade

12.1.3.1.2. Perforation

12.1.3.1.3. Thrombus formation

12.1.3.2. Performed to influence the management and the information provided outweighs the risk

12.1.4. Right heart (pulmonary artery) catheterization

12.1.4.1. Measures intracardiac pressures

12.1.4.2. Directs eligility for advanced therapies

12.1.4.3. Consider if HF is due to

12.1.4.3.1. Constrictive percarditis

12.1.4.3.2. Restrictive cardiomyopathy

12.1.4.3.3. Congenital heart disease

12.1.4.3.4. High-output state

12.1.4.4. Advanced HF

12.1.4.4.1. Left- and right-sided filling pressures are persistently high

12.1.4.4.2. Decreased cardiac index (< or equal to 2.2 l/min/m2)

12.2. Consultation Cardiologist

12.2.1. Advanced therapies w Cardiologist

12.2.1.1. ICD (implantable cardiverter defibrillator)

12.2.1.2. Cardiac resynchronization therapy (CRT)

12.2.1.3. Coronary revascularization

12.2.1.3.1. Percutaneous transluminal coronary angioplasty

12.2.1.3.2. Coronary artery bypass surgery

12.2.1.4. Mechanical circulatory support

12.2.1.4.1. Inotropic therapy

12.2.1.4.2. Short term MCS

12.2.1.4.3. Durable MCS long trem therapy

12.2.1.5. Cardiac transplantation

12.3. Medication

12.3.1. Loop Diuretics

12.3.1.1. Furosemide 20‒40 mg 1–2 times daily

12.3.1.2. Bumetanide 0.5‒1 mg 1–2 times daily

12.3.1.3. Torsemide 10–20 mg daily

12.3.2. Thiazides

12.3.2.1. Chlorothiazide 250‒500 mg 1–2 times daily

12.3.2.2. Chlorthalidone 12.5‒25 mg daily

12.3.2.3. Hydrochlorothiazide 25 mg 1–2 times daily

12.3.2.4. Indapamide 2.5 mg daily

12.3.2.5. Metolazone 2.5 mg daily

12.3.3. ARNIs

12.3.3.1. Sacubitril-valsartan (24mg/26mg, 49mg/51mg twice daily)

12.3.4. ACEi

12.3.4.1. Lisinopril (2.5-5mg) daily

12.3.4.2. Ramipril 1.25‒2.5 mg daily

12.3.4.3. Enalapril 2.5 mg daily

12.3.5. ARBs

12.3.5.1. Losartan 25‒50 mg daily

12.3.5.2. Valsartan 20‒40 mg twice daily

12.3.5.3. Candesartan 4‒8 mg daily

12.3.6. MRA

12.3.6.1. Spironolactone 12.5‒25 mg daily

12.3.6.2. Eplerenone 25 mg daily

12.3.7. SGLT2 inhibitors

12.3.7.1. Dapagliflozin 10 mg daily

12.3.7.2. Empagliflozin 10 mg daily

12.3.8. Beta-1 adrenergic blocker

12.3.8.1. Metoprolol XL12.5‒25 mg daily

12.3.8.2. Carvedilol 3.125 mg twice daily

12.3.8.3. Bisoprolol 1.25 mg daily

12.3.9. Mineralocorticoid receptor antagonists

12.4. Management of acute or exacerbation HF

12.4.1. Lasix/Loop diuretic

12.4.2. Morphine (for ACS)

12.4.3. Nitroglycerin

12.4.4. Oxygen

12.4.5. Position or Prop up the patient

13. Contributing factors

13.1. Underlying causes

13.1.1. Renal Failure

13.1.1.1. Electrolyte abnormalities

13.1.1.1.1. Hyperkalemia: potassium binders can be given to those with hyperkalemia while on renin-angiotensin inhibitor.

13.1.1.1.2. Severe hyponatremia (sodium ≤ 120 meq/L):

13.1.2. Valvular heart disease

13.1.3. Myocarditis

13.1.4. Pericardial disease

13.1.5. Myocardial infarction

13.1.6. Left ventricular hypertrophy

13.1.7. Hemochromatosis

13.1.8. Amyloidosis

13.1.8.1. Amyloidosis: Tafamidis, a transthyretin stabilizer, is an option for amyloid cardiomyopathy with class I–II symptoms

13.1.9. Chemotherapy or cardiotoxic drugs

13.1.9.1. Cancer-related cardiomyopathy: ARB/ACEi and β-blockers given in EF < 50% to reduce progression

13.1.10. Arrhythmias

13.1.10.1. Bradyarrhythmia

13.1.10.2. Tachyarrhythmias

13.1.10.2.1. Atrial fibrillation (AF) with HF symptoms: Consider AV nodal ablation or cardiac resynchronization therapy if with rapid ventricular rates despite optimized medical therapy.

13.2. Compliance with medical therapy

13.3. Presence of comorbidities

13.3.1. Hypertension

13.3.1.1. Optimize guideline-directed medical therapy up to maximally tolerated dose.

13.3.1.2. The following drug classes are generally avoided or used with caution

13.3.1.2.1. Direct-acting vasodilators

13.3.1.2.2. Calcium channel blockers

13.3.1.2.3. Alpha-blockers

13.3.1.2.4. Centrally acting alpha-agonists

13.3.2. Obstructive SA

13.3.2.1. Perform sleep study in those in whom sleep disorder is suspected.

13.3.2.2. Continuous positive airway pressure (CPAP) recommended in those confirmed with OSA

13.3.3. Type 2 diabetes mellitus

13.3.3.1. SGLT2i is recommended.

13.3.3.2. Avoid thiazolidinediones.

13.3.3.3. Optimize glycemic control.

13.3.4. Plumonary HTN

13.3.4.1. Manage the underlying cause.

13.3.4.2. Pulmonary vasodilators may be of benefit.

13.3.5. Iron deficiency

13.3.5.1. IV iron therapy is indicated in HFrEF.

13.3.5.2. Erythropoietin-stimulating agents are not recommended.