Journal of Veterinary Internal Medicine (May 2022)

Electrocardiographic characteristics of trained and untrained standardbred racehorses

  • Sarah D. Nissen,
  • Rikke Weis,
  • Elisabeth K. Krag‐Andersen,
  • Eva M. Hesselkilde,
  • Jonas L. Isaksen,
  • Helena Carstensen,
  • Jørgen K. Kanters,
  • Dominik Linz,
  • Prashanthan Sanders,
  • Charlotte Hopster‐Iversen,
  • Thomas Jespersen,
  • Steen Pehrson,
  • Rikke Buhl

DOI
https://doi.org/10.1111/jvim.16427
Journal volume & issue
Vol. 36, no. 3
pp. 1119 – 1130

Abstract

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Abstract Background Long‐term exercise induces cardiac remodeling that potentially influences the electrical properties of the heart. Hypothesis/objectives We assessed whether training alters cardiac conduction in Standardbred racehorses. Animals Two hundred one trained and 52 untrained Standardbred horses. Methods Cross‐sectional study. Resting ECG recordings were analyzed to assess heart rate (HR) along with standard ECG parameters and for identification of atrial and ventricular arrhythmias. An electrophysiological study was performed in 13 horses assessing the effect of training on sinoatrial (SA) and atrioventricular (AV) nodal function by sinus node recovery time (SNRT) and His signal recordings. Age and sex adjustments were implemented in multiple and logistic regression models for comparison. Results Resting HR in beats per minute (bpm) was lower in trained vs untrained horses (mean, 30.8 ± 2.6 bpm vs 32.9 ± 4.2 bpm; P = .001). Trained horses more often displayed second‐degree atrioventricular block (2AVB; odds ratio, 2.59; P = .04). No difference in SNRT was found between groups (n = 13). Mean P‐A, A‐H, and H‐V intervals were 71 ± 20, 209 ± 41, and 134 ± 41 ms, respectively (n = 7). We did not detect a training effect on AV‐nodal conduction intervals. His signals were present in 1 horse during 2AVB with varying H‐V interval preceding a blocked beat. Conclusions and Clinical Importance We identified decreased HR and increased frequency of 2AVB in trained horses. In 5 of 7 horses, His signal recordings had variable H‐V intervals within each individual horse, providing novel insight into AV conduction in horses.

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