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Related Concept Videos

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...
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The normal cardiac rhythm is a synchronized electrical activity that facilitates the regular and coordinated contraction of the heart muscle. This process is essential for efficient blood circulation throughout the body. The fundamental elements involved in establishing and maintaining this rhythm include the unique electrical properties of cardiac muscle cells, the sinoatrial (SA) node's pacemaker function, the specialized conducting system, and the ionic mechanisms underlying each phase of...

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Related Experiment Video

Updated: Jun 27, 2026

Permanent Ligation of the Left Anterior Descending Coronary Artery in Mice: A Model of Post-myocardial Infarction Remodelling and Heart Failure
09:37

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Published on: December 2, 2014

Left ventricular electrical remodelling: a review.

Ljuba Bacharova1, Niraj Varma2, Douglas D Schocken3

  • 1Premedix, Bratislava, Slovakia.

Heart (British Cardiac Society)
|June 25, 2026
PubMed
Summary
This summary is machine-generated.

The traditional electrocardiogram (ECG) diagnosis of left ventricular hypertrophy (LVH) is flawed. A new framework, Left Ventricular Electrical Remodeling (LVER), better captures electrical changes and patient risk.

Keywords:
ElectrocardiographyMYOCARDIAL FIBROSISRISK STRATIFICATION

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Last Updated: Jun 27, 2026

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

Published on: April 30, 2020

Area of Science:

  • Cardiology
  • Biophysics
  • Medical Imaging

Background:

  • The traditional Voltage Paradigm for diagnosing left ventricular hypertrophy (LVH) via ECG assumes a linear relationship between QRS amplitude and left ventricular mass.
  • High-resolution cardiac imaging reveals significant discrepancies, with many anatomic LVH cases showing normal QRS amplitudes and vice versa.

Purpose of the Study:

  • To propose a new framework, Left Ventricular Electrical Remodeling (LVER), to replace the term 'ECG-LVH'.
  • To incorporate non-spatial determinants affecting ECG signals, such as conduction velocity and fibrosis, into a comprehensive model.

Main Methods:

  • The study introduces LVER, encompassing four distinct phenotypes: high QRS amplitude, conduction delay, low QRS amplitudes, and QRS fragmentation.
  • This framework is endorsed by leading electrocardiology societies.

Main Results:

  • Each LVER phenotype represents a unique electrophysiological substrate.
  • These phenotypes provide prognostic information independently of left ventricular mass.

Conclusions:

  • LVER offers a more accurate approach to assessing cardiac electrical status than the traditional Voltage Paradigm.
  • Reframing the clinical task as electrical risk phenotyping improves patient risk stratification.