Congestive heart failure positive inotropics

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Congestive Heart Failure Microchapters

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Patient Information

Overview

Historical Perspective

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Pathophysiology

Systolic Dysfunction
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HFpEF
HFrEF

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Differentiating Congestive heart failure from other Diseases

Epidemiology and Demographics

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Diagnosis

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Treatment

Invasive Hemodynamic Monitoring

Medical Therapy:

Summary
Acute Pharmacotherapy
Chronic Pharmacotherapy in HFpEF
Chronic Pharmacotherapy in HFrEF
Diuretics
ACE Inhibitors
Angiotensin receptor blockers
Aldosterone Antagonists
Beta Blockers
Ca Channel Blockers
Nitrates
Hydralazine
Positive Inotropics
Anticoagulants
Angiotensin Receptor-Neprilysin Inhibitor
Antiarrhythmic Drugs
Nutritional Supplements
Hormonal Therapies
Drugs to Avoid
Drug Interactions
Treatment of underlying causes
Associated conditions

Exercise Training

Surgical Therapy:

Biventricular Pacing or Cardiac Resynchronization Therapy (CRT)
Implantation of Intracardiac Defibrillator
Ultrafiltration
Cardiac Surgery
Left Ventricular Assist Devices (LVADs)
Cardiac Transplantation

ACC/AHA Guideline Recommendations

Initial and Serial Evaluation of the HF Patient
Hospitalized Patient
Patients With a Prior MI
Sudden Cardiac Death Prevention
Surgical/Percutaneous/Transcather Interventional Treatments of HF
Patients at high risk for developing heart failure (Stage A)
Patients with cardiac structural abnormalities or remodeling who have not developed heart failure symptoms (Stage B)
Patients with current or prior symptoms of heart failure (Stage C)
Patients with refractory end-stage heart failure (Stage D)
Coordinating Care for Patients With Chronic HF
Quality Metrics/Performance Measures

Implementation of Practice Guidelines

Congestive heart failure end-of-life considerations

Specific Groups:

Special Populations
Patients who have concomitant disorders
Obstructive Sleep Apnea in the Patient with CHF
NSTEMI with Heart Failure and Cardiogenic Shock

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

  1. Agents that increase intracellular cAMP
  2. Agents that affect sarcolemmal ion pumps/channels
  3. Agents that modulate intracellular calcium mechanisms by either:
  4. Drugs having multiple mechanisms of action
    • Pimobendan
    • Vesnarinone

Digoxin

  • Inhibits Na,K+-ATPase resulting in an increase in intracellular Na+, extracellular Ca2+ exchange increasing the velocity and extent of sarcomere shortening.
  • ACC/AHA recommend digoxin for symptomatic patients with left ventricular systolic dysfunction.
  • Commonly used in patients with heart failure and atrial fibrillation to reduce the ventricular response rate.
  • Mortality has not been shown to be improved with use of digoxin, but the use of digoxin has been associated with a reduction in hospitalization in the RALES study.
  • There is no need to load a CHF patient with digoxin. For the majority of patients with normal renal function, a daily dose of 0.25 mg of digoxin is usually adequate. In the older patient or in those patients with renal impairment, a dose of 0.125 mg per day may be adequate.
  • Drugs that increase the concentration of digoxin include antibiotics and anticholinergic agents as well as amiodarone, quinidine and verapamil.
  • In the RALES study, a level of < 1 ng/ml was associated with efficacy. Levels above 1 ng/ml were not associated with greater efficacy and were associated with higher mortality.

Dobutamine

  • Activates beta-1 receptors resulting in enhanced cardiac contractility.
  • Long-term dobutamine infusions are arrhythmogenic and increase mortality.
  • Dobutamine also slightly reduces afterload

Dopamine

  • Unique dose dependent mechanism of action.
  • At low doses: (≤2 µg/kg/min), selective dilation of splanchnic and renal arterial beds. assists in increasing renal perfusion.
  • At intermediate doses: (2 to 10 µg/kg/min), increased norepinephrine secretion results in increased cardiac contractility, heart rate and systemic vascular resistance.
  • At higher doses: (5 to 20 µg/kg/min), direct alpha-adrenergic receptor stimulation increases systemic vascular resistance.

Milrinone

  • Phosphodiesterase-III inhibitor that enhances cardiac contractility by increasing intracellular cyclic adenosine monophosphate (cAMP).
  • Potent pulmonary vasodilator that may benefit some patients with pulmonary hypertension.
  • Unlike dobutamine milrinone is beneficial in decompensated heart failure patients who are on beta-blocker therapy.
  • Long term milrinone infusions are arrhythmogenic, and increase mortality.

References


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