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Prediction of incident atrial fibrillation in post-stroke patients using machine learning: a French nationwide study
by
Lemrini, Yassine
, El-Bouri, Wahbi
, Lip, Gregory Y. H
, Fauchier, Laurent
, Bisson, Arnaud
, Bodin, Alexandre
, Angoulvant, Denis
in
Algorithms
/ Artificial neural networks
/ Cardiac arrhythmia
/ Decision analysis
/ Decision trees
/ Fibrillation
/ Ischemia
/ Learning algorithms
/ Machine learning
/ Neural networks
/ Predictions
/ Reclassification
/ Risk
/ Stroke
/ Test sets
2023
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Prediction of incident atrial fibrillation in post-stroke patients using machine learning: a French nationwide study
by
Lemrini, Yassine
, El-Bouri, Wahbi
, Lip, Gregory Y. H
, Fauchier, Laurent
, Bisson, Arnaud
, Bodin, Alexandre
, Angoulvant, Denis
in
Algorithms
/ Artificial neural networks
/ Cardiac arrhythmia
/ Decision analysis
/ Decision trees
/ Fibrillation
/ Ischemia
/ Learning algorithms
/ Machine learning
/ Neural networks
/ Predictions
/ Reclassification
/ Risk
/ Stroke
/ Test sets
2023
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Prediction of incident atrial fibrillation in post-stroke patients using machine learning: a French nationwide study
by
Lemrini, Yassine
, El-Bouri, Wahbi
, Lip, Gregory Y. H
, Fauchier, Laurent
, Bisson, Arnaud
, Bodin, Alexandre
, Angoulvant, Denis
in
Algorithms
/ Artificial neural networks
/ Cardiac arrhythmia
/ Decision analysis
/ Decision trees
/ Fibrillation
/ Ischemia
/ Learning algorithms
/ Machine learning
/ Neural networks
/ Predictions
/ Reclassification
/ Risk
/ Stroke
/ Test sets
2023
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Prediction of incident atrial fibrillation in post-stroke patients using machine learning: a French nationwide study
Journal Article
Prediction of incident atrial fibrillation in post-stroke patients using machine learning: a French nationwide study
2023
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Overview
BackgroundTargeting ischemic strokes patients at risk of incident atrial fibrillation (AF) for prolonged cardiac monitoring and oral anticoagulation remains a challenge. Clinical risk scores have been developed to predict post-stroke AF with suboptimal performances. Machine learning (ML) models are developing in the field of AF prediction and may be used to discriminate post-stroke patients at risk of new onset AF. This study aimed to evaluate ML models for the prediction of AF and to compare predictive ability to usual clinical scores.MethodsBased on a French nationwide cohort of 240,459 ischemic stroke patients without AF at baseline from 2009 to 2012, ML models were trained on a train set and the best model was selected to be evaluate on the test set. Discrimination of the best model was evaluated using the C index. We finally compared our best model with previously described clinical scores.ResultsDuring a mean follow-up of 7.9 ± 11.5 months, 14,095 patients (mean age 77.6 ± 10.6; 50.3% female) developed incident AF. After training, the best ML model selected was a deep neural network with a C index of 0.77 (95% CI 0.76–0.78) on the test set. Compared to traditional clinical scores, the selected model was statistically significantly superior to the CHA2DS2-VASc score, Framingham risk score, HAVOC score and C2HEST score (P < 0.0001). The ability to predict AF was improved as shown by net reclassification index increase (P < 0.0001) and decision curve analysis.ConclusionsML algorithms predict incident AF post-stroke with a better ability than previously developed clinical scores.Graphic AbstractAF: atrial fibrillation; DNN: deep neural network; IS: ischemic stroke; KNN: K-nearest neighbors; LR: logistic regression; RFC: random forest classifier; XGBoost: extreme gradient boosting
Publisher
Springer Nature B.V
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