IEEE Access (Jan 2024)

Reference for Electrocardiographic Imaging-Based T-Wave Alternans Estimation

  • Estela Sanchez-Carballo,
  • Francisco Manuel Melgarejo-Meseguer,
  • Ramya Vijayakumar,
  • Juan Jose Sanchez-Munoz,
  • Arcadi Garcia-Alberola,
  • Yoram Rudy,
  • Jose Luis Rojo-Alvarez

DOI
https://doi.org/10.1109/ACCESS.2024.3447114
Journal volume & issue
Vol. 12
pp. 118510 – 118524

Abstract

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Sudden cardiac death causes multiple deaths annually, and T-wave alternans are a reliable predictor of this fatal event. Detecting alternans is crucial for reducing disease incidence, and electrocardiographic imaging is a promising tool, providing spatial-temporal insights. The absence of references and segmentation methods specific to these data may complicate progress in the field. Therefore, this work aimed to develop a reference for evaluating estimation methods. Initially, a novel T-wave segmentation procedure specific to these data was introduced and compared with a commonly used method. Subsequently, a reference for assessing alternans estimation methods was created by integrating alternans into epicardial signals through a spatial-temporal Gaussian function. Finally, a bootstrap-based classifier for detecting alternans was developed. Results underscored the superiority of the novel T-wave segmentation procedure, with the lowest 95% confidence interval being $[16.57~\mu V, 18.80~\mu V]$ , indicating significant disparities between the two segmentation methodologies. Furthermore, the generated reference demonstrated the distinguishability of T-wave alternans with an amplitude of approximately $55~\mu V$ from noise. Additionally, the classifier exhibited consistency with previous findings, demonstrating its ability to detect alternans with amplitudes around $50~\mu V$ . In conclusion, this study provides a spatial-temporal reference for proper evaluation of estimation methods, contributing to establishing a gold standard.

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