T wave morphological variability markers strongly correlated with serum potassium (partial correlation 0.75), calcium (-0.74), and heart rate (-0.90) during hemodialysis in ESRD patients.
Observational (n=20)
Do T wave morphology descriptors correlate with serum potassium, calcium, and heart rate during hemodialysis in ESRD patients?
T wave morphological variability markers on ECG strongly correlate with serum potassium and calcium levels during hemodialysis, suggesting potential for non-invasive ion monitoring.
Effect estimate: Partial correlation 0.75, -0.74, -0.90
Objective: Chronic kidney disease affects more than 10% of the world population. Changes in serum ion concentrations increase the risk for ventricular arrhythmias and sudden cardiac death, particularly in end-stage renal disease (ESRD) patients. We characterized how T wave amplitude, duration and morphology descriptors change with variations in serum levels of potassium and calcium and in heart rate, both in ESRD patients and in simulated ventricular fibers. Methods: Electrocardiogram (ECG) recordings from twenty ESRD patients undergoing hemodialysis (HD) and pseudo-ECGs (pECGs) calculated from twenty-two simulated ventricular fibers at varying transmural heterogeneity levels were processed to quantify T wave width (T w), T wave slope-to-amplitude ratio (T S/A) and four indices of T wave morphological variability based on time warping (d w, d NL w, d a and d NL a). Serum potassium and calcium levels and heart rate were measured along HD. Results: d NL a was the marker most strongly correlated with serum potassium, d w with calcium and d a with heart rate, after correction for covariates. Median values of partial correlation coefficients were 0. 75, -0. 74 and -0. 90, respectively. For all analyzed T wave descriptors, high inter-patient variability was observed in the pattern of such relationships. This variability, accentuated during the first HD time points, was reproduced in the simulations and shown to be influenced by differences in transmural heterogeneity. Conclusion: Changes in serum potassium and calcium levels and in heart rate strongly affect T wave descriptors, particularly those quantifying morphological variability. Significance: ECG markers have the potential to be used for monitoring serum ion concentrations in ESRD patients.
Bukhari et al. (Thu,) conducted a observational in End-stage renal disease (n=20). Hemodialysis was evaluated on Correlation of T wave morphological variability markers with serum potassium, calcium, and heart rate (Partial correlation 0.75, -0.74, -0.90). T wave morphological variability markers strongly correlated with serum potassium (partial correlation 0.75), calcium (-0.74), and heart rate (-0.90) during hemodialysis in ESRD patients.