ECG-derived markers based on time-warping robustly quantified T-wave morphological variability and were strongly associated with changes in the dispersion of ventricular repolarization.
Observational (n=17)
No
Novel ECG-derived markers based on time-warping the morphology of T-waves can robustly quantify ventricular repolarization dispersion, showing potential as arrhythmic risk predictors.
Objective: We propose two electrocardiogram (ECG)-derived markers of T-wave morphological variability in the temporal, d ω , and amplitude, d α , domains. Two additional markers, d ω NL and d α NL , restricted to measure the nonlinear information present within d ω and d α are also proposed. Methods: We evaluated the accuracy of the proposed markers in capturing T-wave time and amplitude variations in 3 situations: 1) In a simulated set up with presence of additive Laplacian noise, 2) when modifying the spatio-temporal distribution of electrical repolarization with an electro-physiological cardiac model, and 3) in ECG records from healthy subjects undergoing a tilt table test. Results:The metrics d ω , d α , d ω NL , and d α NL followed T-wave time- and amplitude-induced variations under different levels of noise, were strongly associated with changes in the spatio-temporal dispersion of repolarization, and showed to provide additional information to differences in the heart rate, QT and T pe intervals, and in the T-wave width and amplitude. Conclusion: The proposed ECG-derived markers robustly quantify T-wave morphological variability, being strongly associated with changes in the dispersion of repolarization. Significance: The proposed ECG-derived markers can help to quantify the variability in the dispersion of ventricular repolarization, showing a great potential to be used as arrhythmic risk predictors in clinical situations.
Ramírez et al. (Tue,) conducted a observational in Healthy (n=17). Tilt table test vs. Supine position was evaluated on T-wave morphological variability (dw, da, dNLw, dNLa). ECG-derived markers based on time-warping robustly quantified T-wave morphological variability and were strongly associated with changes in the dispersion of ventricular repolarization.
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