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Related Concept Videos

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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Assessment of radial pulse01:11

Assessment of radial pulse

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Assessment of Radial Pulse
The radial pulse, located at the wrist, is often the preferred site for assessing peripheral pulse because of its accessibility and dependability. The process of determining the radial pulse involves several steps:
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Cardiac Catheterization II: Right Heart Catheterization01:21

Cardiac Catheterization II: Right Heart Catheterization

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Right Heart Catheterization: An OverviewRight heart catheterization is an invasive diagnostic procedure that measures right-sided cardiac and pulmonary artery pressures, calculates cardiac output, and identifies intracardiac shunts. It provides detailed hemodynamic data essential for diagnosing and managing various cardiovascular conditions, such as pulmonary hypertension.Access SitesCommon access sites for right heart catheterization include the internal jugular vein in the neck region, the...
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Cardiac Catheterization I: Pre-Procedure Overview01:28

Cardiac Catheterization I: Pre-Procedure Overview

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Cardiac catheterization is an invasive diagnostic technique used to identify and evaluate structural and functional diseases of the heart and major blood vessels. This technique diagnoses congenital heart disease, coronary artery disease, valvular heart disease, and coronary spasms and assesses ventricular function. It helps guide treatment decisions, including the need for revascularization procedures like percutaneous coronary intervention (PCI) or coronary artery bypass grafting (CABG) and...
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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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Assessment of apical radial pulse01:25

Assessment of apical radial pulse

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Apical-Radial (A-R) Pulse Assessment
The A-R pulse assessment involves simultaneous evaluation of the apical and radial pulses. When the apical and radial pulse rates vary, this assessment helps identify a pulse deficit.
Pre-Procedural Preparation
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Related Experiment Video

Updated: Feb 22, 2026

Transradial Access Chemoembolization for Hepatocellular Carcinoma Patients
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Transradial access: lessons learned from cardiology.

Brian M Snelling1, Samir Sur1, Sumedh Subodh Shah1

  • 1Department of Neurological Surgery, University of Miami Miller School of Medicine, Miami, Florida, USA.

Journal of Neurointerventional Surgery
|October 1, 2017
PubMed
Summary
This summary is machine-generated.

Transradial access (TRA), a safer arterial puncture method from cardiology, offers valuable lessons for neuro-intervention. This review details best practices for TRA, enhancing patient outcomes in cerebrovascular procedures.

Keywords:
cardiologyneuro-interventionreviewtransradial access

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Area of Science:

  • Interventional Neurology
  • Cardiovascular Interventions
  • Medical Procedure Optimization

Background:

  • Interventional cardiology innovations often precede neuro-intervention.
  • Transradial access (TRA) has become standard in cardiology due to safety benefits over transfemoral access (TFA).
  • Neuro-intervention shares arterial access similarities with cardiology, despite unique anatomical challenges.

Purpose of the Study:

  • To adapt cardiology's extensive literature on TRA for neuro-interventionalists.
  • To provide a data-driven understanding of TRA best practices for physicians treating cerebrovascular disease.
  • To highlight the safety, cost, and patient satisfaction benefits of TRA.

Main Methods:

  • Comprehensive review of interventional cardiology literature focusing on TRA.
  • Analysis of safety profiles, cost-effectiveness, and patient satisfaction comparing TRA and TFA.
  • Examination of technical procedural nuances and post-procedural care for TRA.

Main Results:

  • TRA demonstrates favorable safety profiles compared to TFA in cardiovascular procedures.
  • Studies indicate potential cost savings and improved patient satisfaction with TRA.
  • Cardiology literature provides a robust foundation for understanding TRA techniques and outcomes.

Conclusions:

  • Neuro-interventionalists can benefit from adopting TRA, leveraging established cardiology best practices.
  • Implementing TRA in neuro-intervention may improve procedural safety and patient experience.
  • Further exploration of TRA in neuro-intervention is warranted based on cardiovascular evidence.