Deep Learning-Based Multiclass Classification of Mitral Valve Etiologies Using Limited B-Mode and Color Doppler Echocardiography: Internal and External Validation
Authors
Affiliations (1)
Affiliations (1)
- Cardiovascular Center and Division of Cardiology, Department of Internal Medicine, Seoul National University Bundang Hospital, Seongnam, Gyeonggi, Republic of K
Abstract
BackgroundAccurate etiologic classification of mitral valve (MV) is essential for guiding clinical management but remains dependent on expert visual interpretation. Despite advances in artificial intelligence (AI)-based quantitative analysis, automated morphologic interpretation under routine imaging conditions remains limited. ObjectivesTo develop and validate a deep learning (DL) framework for multiclass classification for major MV etiologies using a limited routine transthoracic echocardiography (TTE) view. MethodsA multi-view DL model was developed to classify five MV etiologies (normal, rheumatic, degenerative, prolapse, and functional). The developmental dataset comprised 4,344 TTE examinations from a nationwide multicenter registry. Validation was performed using an internal test dataset and an independent external test dataset (2,262 TTE examinations). Prespecified subgroup analyses were conducted according to mitral regurgitation (MR) severity and automated image quality (IQ). ResultsThe model demonstrated robust performance across all MV etiologies in both internal and external datasets. In the internal test dataset, area under the receiver operating characteristic curve (AUROC) values ranged from 0.968 to 0.997 across etiologies, with higher performance observed for normal valves and rheumatic disease. In the external test dataset, discriminative performance remained preserved (AUROC, 0.931-0.992), despite differences in disease distribution and MR severity. Sensitivity for MV prolapse increased markedly with moderate-to-severe MR compared with mild MR, whereas degenerative disease showed persistently lower sensitivity across MR severity. Diagnostic performance remained stable across IQ strata, with comparable accuracy and macro-F1 scores in all-adequate and partially suboptimal examinations. In post-hoc analyses of cases with multiple MV etiologies, the model correctly identified at least one expert-assigned etiology in 85.7% of cases. ConclusionsDL-based analysis of limited, routinely acquired TTE views enables reliable multiclass classification of MV etiologies. This approach may complement quantitative automation and expert visual assessment, supporting more consistent and scalable MV evaluation in routine echocardiographic practice.