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Related Experiment Video

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Optimizing single-chamber pacing in dogs. Part 2: Rate adaptive pacing.

N Sydney Moïse1, Wyatt H Flanders2, Nicholas H Flanders3

  • 1Section of Cardiology, Department of Clinical Sciences, College of Veterinary Medicine, Cornell University, Ithaca, NY 14853, USA.

Veterinary Journal (London, England : 1997)
|March 6, 2021
PubMed
Summary
This summary is machine-generated.

Optimizing pacemaker programming in dogs requires understanding individual rate needs and feature interactions for rate-adaptive pacing. This review details programming considerations and assessment methods for successful canine pacemaker function.

Keywords:
Pacemaker programmingPoincaré plotRate adaptive/responsive pacingRight ventricular pacing in the dog

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Area of Science:

  • Veterinary Cardiology
  • Biomedical Engineering
  • Animal Electrophysiology

Background:

  • Rate-adaptive pacing in dogs necessitates a thorough understanding of individual physiological requirements.
  • Effective pacemaker function relies on the interplay between sensing the need for rate changes and executing appropriate pacing adjustments.
  • This review, Part 2, focuses on optimizing the programming of rate-adaptive pacemakers in canine patients.

Purpose of the Study:

  • To review essential programming considerations for optimizing the rate-adaptive pacing profile in dogs.
  • To summarize the programming features of pacemakers from major manufacturers (Abbott, Biotronik/Dextronix, Medtronic).
  • To examine methods for assessing the success of pacemaker programming in canine patients.

Main Methods:

  • Review of programmable features including lower rate, upper sensor rate, and activity zones.
  • Analysis of automatic versus manual adjustments and closed-loop stimulation.
  • Examination of assessment tools such as pacemaker data, Holter analysis, Poincaré plots, and tachograms.

Main Results:

  • Detailed review of programming parameters crucial for optimizing pacing rate profiles in dogs.
  • Summary of pacemaker programming features across three leading manufacturers.
  • Identification of methods for evaluating pacemaker programming efficacy using various data analysis techniques.

Conclusions:

  • Successful rate-adaptive pacing in dogs depends on careful, individualized programming of multiple interdependent features.
  • A comprehensive approach to programming and assessment is vital for optimal pacemaker performance in canine patients.
  • Further investigation into specific rate-adaptive pacing scenarios in dogs is warranted.