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Related Concept Videos

Conduction System of the Heart01:19

Conduction System of the Heart

13.9K
Autorhythmicity is a term that refers to the heart's inherent ability to generate electrical signals and instigate muscle contractions. This self-regulating conduction system within the heart consists of two key components: the pacemaker cells and specialized conducting cells.
The pacemaker cells are located in two primary nodes: the sinoatrial (SA) node and the atrioventricular (AV) node. The SA node pacemaker cells can autonomously depolarize, triggering an action potential that leads to the...
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Conduction System of the Heart01:20

Conduction System of the Heart

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The cardiac conduction system produces and transmits electrical impulses that prompt myocardial contraction, ensuring efficient heart function. This intricate system ensures that the heart beats in a coordinated and efficient manner, beginning with the atria and then the ventricles. The conduction system optimizes cardiac output by maintaining this precise sequence, which is crucial for adequate blood circulation.
This system relies on the unique properties of nodal and Purkinje cells:...
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Cardiac Catheterization III: Left Heart Catheterization01:24

Cardiac Catheterization III: Left Heart Catheterization

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Left heart catheterization is an invasive diagnostic procedure used to evaluate the function and structure of the left side of the heart. It is generally performed to diagnose and treat cardiovascular conditions such as valve abnormalities, coronary artery disease, and congenital heart defects.Diagnostic and therapeutic purposesLeft heart catheterization serves various diagnostic and therapeutic purposes, including:Assessing coronary artery bypass grafts.Evaluating coronary artery disease in...
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Cardiac Catheterization IV: Nursing Management01:26

Cardiac Catheterization IV: Nursing Management

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Nursing responsibilities before cardiac catheterization include:Assess for allergies and establish baseline health status.Before cardiac catheterization, assess the patient for allergies to contrast dye. Perform a comprehensive baseline assessment, including vital signs, heart and breath sounds, and a neurovascular assessment of the extremities, noting distal pulses, skin color, and temperature. Instruct the patient to fast for 8-12 hours before the procedure. Evaluate baseline laboratory...
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Related Experiment Video

Updated: Feb 19, 2026

Benefits of Cardiac Resynchronization Therapy in an Asynchronous Heart Failure Model Induced by Left Bundle Branch Ablation and Rapid Pacing
12:45

Benefits of Cardiac Resynchronization Therapy in an Asynchronous Heart Failure Model Induced by Left Bundle Branch Ablation and Rapid Pacing

Published on: December 11, 2017

11.1K

Conduction system pacing using a rotatable connector enabling continuous pacing during lumenless lead deployment: a

Fernando Montenegro Sá1, Alexandra Castro1, Sónia Pereira1

  • 1Cardiology Department, Hospital Pedro Hispano, ULS Matosinhos, Senhora da Hora 4464-513, Portugal.

European Heart Journal. Case Reports
|February 18, 2026
PubMed
Summary

This study introduces a new rotatable connector for lumenless leads in conduction system pacing (CSP), enabling continuous monitoring and improving procedural efficiency. This innovation enhances control during CSP procedures, offering a more physiological pacing alternative.

Area of Science:

  • Cardiology
  • Electrophysiology
  • Medical Devices

Background:

Keywords:
Case reportConduction system pacingLeft bundle branch area pacingLumenless lead

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  • Conduction system pacing (CSP) offers physiological ventricular activation, recommended for patients with high pacing burden and mild LV dysfunction.
  • Current CSP methods using lumenless leads (LL) face challenges with consistent capture and real-time monitoring.
  • A need exists for enhanced tools to improve procedural control and efficiency in CSP.