Predicting deterioration of ventricular function in patients with repaired tetralogy of Fallot using machine learning.

Eur Heart J Cardiovasc Imaging

Department of Imaging Science and Innovation, Center for Health Research, Geisinger Clinic, 100 North Academy Avenue, Danville, 17822-4400 PA, USA.

Published: July 2018

AI Article Synopsis

  • - This study aimed to determine which patients with repaired tetralogy of Fallot (rTOF) are at risk for worsening heart conditions by employing a machine learning approach, rather than relying on traditional regression methods.
  • - Researchers analyzed clinical data from 153 rTOF patients using cardiac magnetic resonance (CMR) imaging over time, categorizing the deterioration into three levels: none, minor, or major, and identified key predictors for deterioration using a support vector machine classifier.
  • - The findings highlighted that the machine learning models effectively predicted deterioration in ventricular function, with crucial baseline indicators like left ventricular ejection fraction, circumferential strain, and pulmonary regurgitation, enabling potential early interventions for at-risk patients.

Article Abstract

Aims: Previous studies using regression analyses have failed to identify which patients with repaired tetralogy of Fallot (rTOF) are at risk for deterioration in ventricular size and function despite using common clinical and cardiac function parameters as well as cardiac mechanics (strain and dyssynchrony). This study used a machine learning pipeline to comprehensively investigate the predictive value of the baseline variables derived from cardiac magnetic resonance (CMR) imaging and provide models for identifying patients at risk for deterioration.

Methods And Results: Longitudinal deterioration for 153 patients with rTOF was categorized as 'none', 'minor', or 'major' based on changes in ventricular size and ejection fraction between two CMR scans at least 6 months apart (median 2.7 years). Baseline variables were measured at the time of the first CMR. An exhaustive variable search with a support vector machine classifier and five-fold cross-validation was used to predict deterioration and identify the most useful variables. For predicting any deterioration (minor or major) vs. no deterioration, the mean area under the curve (AUC) was 0.82 ± 0.06. For predicting major deterioration vs. minor or no deterioration, the AUC was 0.77 ± 0.07. Baseline left ventricular (LV) ejection fraction, LV circumferential strain, and pulmonary regurgitation were most useful for achieving accurate predictions.

Conclusion: For the prediction of deterioration in patients with rTOF, a machine learning pipeline uncovered the utility of baseline variables that was previously lost to regression analyses. The predictive models may be useful for planning early interventions in patients with high risk.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6012881PMC
http://dx.doi.org/10.1093/ehjci/jey003DOI Listing

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