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Heart Failure II: Pathophysiology01:29

Heart Failure II: Pathophysiology

Systolic Heart Failure and Compensatory MechanismsSystolic heart failure (also termed HFrEF, Heart Failure with Reduced Ejection Fraction) is the most prevalent type of heart filure. It results in a decreased volume of blood being pumped from the ventricle. The aortic arch and carotid sinuses have baroreceptors that detect reduced blood pressure, triggering the sympathetic nervous system (SNS) to release epinephrine and norepinephrine. Initially, this response aims to boost heart rate and...
Heart Failure V: Medical Management01:30

Heart Failure V: Medical Management

Medical Management of Acute Decompensated Heart Failure (ADHF)The primary goals of therapy for patients hospitalized with acute decompensated heart failure (ADHF) include:Relieving symptomsOptimizing volume statusSupporting oxygenation and ventilationMaintaining cardiac output (CO) and end-organ perfusionIdentifying and addressing the cause of ADHFPreventing complicationsProviding patient education on factors precipitating HF exacerbationPlanning for dischargeOngoing monitoring and assessment...
Heart Failure VI: Adjunct Therapies01:22

Heart Failure VI: Adjunct Therapies

Additional therapies for treating patients with heart failure (HF) may include procedural interventions, supplemental oxygen, the management of sleep disorders, and nutritional therapy.Procedural InterventionsImplantable Cardioverter-Defibrillator: For patients at risk of life-threatening arrhythmias due to severe left ventricular dysfunction, an Implantable Cardioverter-Defibrillator (ICD) can detect and terminate these arrhythmias, preventing sudden cardiac death and improving survival rates.
Heart Failure Drugs: Diuretics01:22

Heart Failure Drugs: Diuretics

Heart failure and kidney perfusion are interconnected in a complex way. Reduced renal perfusion and venous congestion are two significant factors that contribute to renal dysfunction in heart failure. The kidneys, primarily responsible for fluid balance in the body, are adversely affected due to compromised cardiac output and increased venous pressure. In response to reduced renal perfusion, the kidneys activate neurohumoral mechanisms to restore balance. However, these mechanisms can be...
Pathophysiology of Heart Failure01:17

Pathophysiology of Heart Failure

Heart failure (HF) is a progressive syndrome involving ventricles that leads to inadequate cardiac output. It can be classified based on location and output or ejection fraction. Ejection fraction (EF) is an essential measurement in the diagnosis and surveillance of HF. Reduced EF corresponds to systolic heart failure (HFrEF). However, HF with preserved ejection fraction (HFpEF) is becoming increasingly prevalent. Also known as diastolic HF, this form of HF is related to aging. The...
Regulation of Stroke Volume01:27

Regulation of Stroke Volume

The regulation of stroke volume, which is the amount of blood the heart pumps out during each heartbeat, is critical for maintaining a healthy circulatory system. Stroke volume is influenced by three main factors: preload, contractility, and afterload.
Preload refers to the degree of stretch on the heart before it contracts. It's analogous to the stretching of a rubber band; the more it's stretched, the more forcefully it snaps back. This concept is encapsulated in the Frank-Starling law of the...

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Related Experiment Video

Updated: May 23, 2026

A Rat Model of Pressure Overload Induced Moderate Remodeling and Systolic Dysfunction as Opposed to Overt Systolic Heart Failure
07:13

A Rat Model of Pressure Overload Induced Moderate Remodeling and Systolic Dysfunction as Opposed to Overt Systolic Heart Failure

Published on: April 30, 2020

Response to heart failure therapy: ventricular volume changes vs. shape changes.

Srilakshmi M Adhyapak1, V Rao Parachuri

  • 1Department of Cardiology, St. John's Medical College Hospital, Bangalore, India. srili2881967@yahoo.com

Asian Cardiovascular & Thoracic Annals
|April 14, 2012
PubMed
Summary

Left ventricular geometry, crucial for heart function, shifts from ellipsoid to spherical in early heart failure. Restoring normal shape is key to successful heart failure therapy.

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Lumped-Parameter and Finite Element Modeling of Heart Failure with Preserved Ejection Fraction
09:20

Lumped-Parameter and Finite Element Modeling of Heart Failure with Preserved Ejection Fraction

Published on: February 13, 2021

Morphological and Functional Assessment of the Right Ventricle Using 3D Echocardiography
07:11

Morphological and Functional Assessment of the Right Ventricle Using 3D Echocardiography

Published on: October 28, 2020

Related Experiment Videos

Last Updated: May 23, 2026

A Rat Model of Pressure Overload Induced Moderate Remodeling and Systolic Dysfunction as Opposed to Overt Systolic Heart Failure
07:13

A Rat Model of Pressure Overload Induced Moderate Remodeling and Systolic Dysfunction as Opposed to Overt Systolic Heart Failure

Published on: April 30, 2020

Lumped-Parameter and Finite Element Modeling of Heart Failure with Preserved Ejection Fraction
09:20

Lumped-Parameter and Finite Element Modeling of Heart Failure with Preserved Ejection Fraction

Published on: February 13, 2021

Morphological and Functional Assessment of the Right Ventricle Using 3D Echocardiography
07:11

Morphological and Functional Assessment of the Right Ventricle Using 3D Echocardiography

Published on: October 28, 2020

Area of Science:

  • Cardiology
  • Cardiac Physiology
  • Heart Failure Research

Background:

  • The left ventricle's prolate ellipsoid shape is vital for optimal cardiac contraction and relaxation.
  • A transition to a more spherical geometry precedes overt heart failure, indicating a critical stage for therapeutic intervention.
  • Early-stage valvular regurgitation demonstrates that left ventricular shape changes can occur independently of volume changes.

Purpose of the Study:

  • To highlight the significance of left ventricular geometry in cardiac function and heart failure.
  • To emphasize left ventricular shape as a potential marker for intensifying therapy in early heart failure.
  • To advocate for left ventricular shape normalization as a therapeutic goal in heart failure management.

Main Methods:

  • The study reviews existing literature on left ventricular geometry and its relation to cardiac function.
  • It analyzes dynamic shape changes during the cardiac cycle in conditions like valvular regurgitation.
  • The effectiveness of interventions aimed at altering ventricular volume and shape in advanced heart failure is discussed.

Main Results:

  • Left ventricular geometry significantly impacts cardiac function; deviations from the prolate ellipsoid shape are early indicators of dysfunction.
  • Shape changes are dissociated from volume changes in early stages of heart failure, such as in valvular regurgitation.
  • Therapeutic interventions in advanced heart failure have shown variable success in normalizing ventricular shape, which often remains spherical.

Conclusions:

  • Left ventricular shape is a critical determinant of cardiac function and a sensitive indicator of heart failure progression.
  • Therapeutic strategies should aim to restore normal left ventricular anatomy and physiology.
  • Left ventricular shape assessment serves as a valuable surrogate marker for evaluating the success of heart failure therapies.