Quantitative Prediction of Right Ventricular Size and Function From the ECG.

Background: Right ventricular ejection fraction (RVEF) and end-diastolic volume (RVEDV) are not readily assessed through traditional modalities. Deep learning-enabled ECG analysis for estimation of right ventricular (RV) size or function is unexplored.
Methods and Results: We trained a deep learning-ECG model to predict RV dilation (RVEDV >120 mL/m ² ), RV dysfunction (RVEF ≤40%), and numerical RVEDV and RVEF from a 12-lead ECG paired with reference-standard cardiac magnetic resonance imaging volumetric measurements in UK Biobank (UKBB; n=42 938). We fine-tuned in a multicenter health system (MSH _original [Mount Sinai Hospital]; n=3019) with prospective validation over 4 months (MSH _validation ; n=115). We evaluated performance with area under the receiver operating characteristic curve for categorical and mean absolute error for continuous measures overall and in key subgroups. We assessed the association of RVEF prediction with transplant-free survival with Cox proportional hazards models. The prevalence of RV dysfunction for UKBB/MSH _original /MSH _validation cohorts was 1.0%/18.0%/15.7%, respectively. RV dysfunction model area under the receiver operating characteristic curve for UKBB/MSH _original /MSH _validation cohorts was 0.86/0.81/0.77, respectively. The prevalence of RV dilation for UKBB/MSH _original /MSH _validation cohorts was 1.6%/10.6%/4.3%. RV dilation model area under the receiver operating characteristic curve for UKBB/MSH _original /MSH _validation cohorts was 0.91/0.81/0.92, respectively. MSH _original mean absolute error was RVEF=7.8% and RVEDV=17.6 mL/m ² . The performance of the RVEF model was similar in key subgroups including with and without left ventricular dysfunction. Over a median follow-up of 2.3 years, predicted RVEF was associated with adjusted transplant-free survival (hazard ratio, 1.40 for each 10% decrease; P =0.031).
Conclusions: Deep learning-ECG analysis can identify significant cardiac magnetic resonance imaging RV dysfunction and dilation with good performance. Predicted RVEF is associated with clinical outcome.