Disease Models & Mechanisms (Aug 2021)

Development and optimization of an in vivo electrocardiogram recording method and analysis program for adult zebrafish

  • ThuyVy Duong,
  • Rebecca Rose,
  • Adriana Blazeski,
  • Noah Fine,
  • Courtney E. Woods,
  • Joseph F. Thole,
  • Nona Sotoodehnia,
  • Elsayed Z. Soliman,
  • Leslie Tung,
  • Andrew S. McCallion,
  • Dan E. Arking

DOI
https://doi.org/10.1242/dmm.048827
Journal volume & issue
Vol. 14, no. 8

Abstract

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Clinically pertinent electrocardiogram (ECG) data from model systems, such as zebrafish, are crucial for illuminating factors contributing to human cardiac electrophysiological abnormalities and disease. Current zebrafish ECG collection strategies have not adequately addressed the consistent acquisition of high-quality traces or sources of phenotypic variation that could obscure data interpretation. Thus, we developed a novel platform to ensure high-quality recording of in vivo subdermal adult zebrafish ECGs and zebrafish ECG reading GUI (zERG), a program to acquire measurements from traces that commercial software cannot examine owing to erroneous peak calling. We evaluate normal ECG trait variation, revealing highly reproducible intervals and wave amplitude variation largely driven by recording artifacts, and identify sex and body size as potential confounders to PR, QRS and QT intervals. With this framework, we characterize the effect of the class I anti-arrhythmic drug flecainide acetate on adults, provide support for the impact of a Long QT syndrome model, and establish power calculations for this and other studies. These results highlight our pipeline as a robust approach to evaluate zebrafish models of human cardiac electrophysiological phenotypes.

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