Abstract
The human right ventricle is barely monitored during open-chest surgery due to the absence of intraoperative imaging techniques capable of elaborating its complex function. Accordingly, artificial intelligence could not be adopted for this specific task. We recently proposed a video-based approach for the real-time evaluation of the epicardial kinematics to support medical decisions. Here, we employed two supervised machine learning algorithms based on our technique to predict the patients’ outcomes before chest closure. Videos of the beating hearts were acquired before and after pulmonary valve replacement in twelve Tetralogy of Fallot patients and recordings were properly labeled as the “unhealthy” and “healthy” classes. We extracted frequency-domain-related features to train different supervised machine learning models and selected their best characteristics via 10-fold cross-validation and optimization processes. Decision surfaces were built to classify two additional patients having good and unfavorable clinical outcomes. The k-nearest neighbors and support vector machine showed the highest prediction accuracy; the patients’ class was identified with a true positive rate ≥95% and the decision surfaces correctly classified the additional patients in the “healthy” (good outcome) or “unhealthy” (unfavorable outcome) classes. We demonstrated that classifiers employed with our video-based technique may aid cardiac surgeons in decision making before chest closure.
Highlights
Artificial intelligence (AI) has been heralded in the family of “disruptive” technology and as a promising tool to assist clinicians in making better clinical decisions [1,2]
Among the AI systems that have been tested, there is the Medical Decision Support System which improved clinical decision making in both diagnosis and therapy selection, especially in cases of uncertainty or incomplete information [6]
The frequency-domain-related features extracted from the epicardial movement of the right ventricle (RV) were processed by the Classification Learner Application in MATLAB® to test different classification models
Summary
Artificial intelligence (AI) has been heralded in the family of “disruptive” technology and as a promising tool to assist clinicians in making better clinical decisions [1,2]. AI implementations can discover and use information hidden in the massive amounts of data usually available for clinical decision making [3,4,5]. AI systems aim to reduce diagnostic and therapeutic errors, unavoidable in routine clinical practice, using any sensor or available data to improve the prediction. Among the AI systems that have been tested, there is the Medical Decision Support System which improved clinical decision making in both diagnosis and therapy selection, especially in cases of uncertainty or incomplete information [6]. AI promisingly showed to surpass diagnoses obtained from repetitive human tasks by merging digital imaging with all other data coming from different fields of research [7,8]. AI has been proposed for analyzing CT-scan [9], MRI [10,11] and transthoracic echocardiography data [12]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
