A new method using machine learning to integrate ECG and gated SPECT MPI for Cardiac Resynchronization Therapy Decision Support on behalf of the VISION-CRT

Abstract: Cardiac resynchronization therapy (CRT) has been established as an important therapy for heart failure. Mechanical dyssynchrony has the potential to predict responders to CRT. The aim of this study was to report the development and the validation of ML models which integrates ECG, gated SPECT MPI (GMPS) and clinical variables to predict patients' response to CRT. This analysis included 153 patients who met criteria for CRT from a prospective cohort study. The variables were used to modeling predictive methods for CRT. Patients were classified as responders for an increase of LVEF>=5% at follow-up. In a second analysis, patients were classified super-responders for increase of LVEF>=15%. For ML, variable selection was applied, and Prediction Analysis of Microarrays (PAM) approach was used for response modeling while Naive Bayes (NB) was used for super-response. They were compared to models obtained with guideline variables. PAM had AUC of 0.80 against 0.71 of logistic regression with guideline variables (p = 0.47). The sensitivity (0.86) and specificity (0.75) were better than for guideline alone, sensitivity (0.72) and specificity (0.22). Neural network with guideline variables outperformed NB (AUC = 0.87 vs 0.86; p = 0.88). Its sensitivity and specificity (1.0 and 0.75, respectively) was better than guideline alone (0.40 and 0.06, respectively). Compared to guideline criteria, ML methods trended towards improved CRT response and super-response prediction. GMPS had a central role in the acquisition of most parameters. Further studies are needed to validate the models.