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Clinical feasibility of exercise-based A-V interval optimization for cardiac resynchronization: a pilot study.

Indrajit Choudhuri1, Dean MacCarter, Rachael Shaw

  • 1Aurora Cardiovascular Services, Aurora Sinai/Aurora St. Luke's Medical Centers, University of Wisconsin School of Medicine and Public Health, Milwaukee, Wisconsin.

Pacing and Clinical Electrophysiology : PACE
|July 22, 2014
PubMed
Summary
This summary is machine-generated.

Optimizing the atrio-ventricular (A-V) interval during cardiopulmonary exercise testing (CPX) is feasible and may improve cardiac resynchronization therapy (CRT) efficacy. This method showed high success rates in patients undergoing CRT optimization.

Keywords:
A-V intervalcardiac resynchronization therapycardiopulmonary exerciseenhanced optimizationheart failure

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Area of Science:

  • Cardiology
  • Medical Devices
  • Physiology

Background:

  • Cardiac resynchronization therapy (CRT) is ineffective in one-third of patients.
  • Current methods for optimizing the atrio-ventricular (A-V) interval are performed at rest, potentially limiting efficacy during activity.
  • Optimizing the A-V interval during exercise may enhance CRT effectiveness.

Purpose of the Study:

  • To evaluate the feasibility of determining the optimal A-V interval using low-intensity cardiopulmonary exercise testing (CPX).
  • To compare CPX-based A-V interval optimization with resting echocardiographic and electrical methods.
  • To identify physiologic parameters during CPX that guide optimal A-V interval selection.

Main Methods:

  • Assessed feasibility of A-V interval optimization using three methods in 17 CRT patients: resting echocardiography, resting electrical optimization, and low-intensity CPX.
  • Programmed five sequential A-V intervals for each method.
  • Monitored cardiopulmonary stability during CPX-based optimization.

Main Results:

  • CPX-based A-V interval optimization was feasible in 94.1% of patients, exceeding the resting echo-based method (88.2%).
  • Significant variation was observed in optimal A-V delays determined by different methods.
  • No cardiopulmonary instability or procedural impact affected CPX-based optimization.

Conclusions:

  • Determining optimized A-V intervals via CPX is feasible in CRT patients.
  • Further research is needed to elucidate the mechanisms and long-term impact of CPX-guided A-V interval optimization.