Evolutionary algorithms and decision trees for predicting poor outcome after endovascular treatment for acute ischemic stroke
Kappelhof, N.; Ramos, L. A.; Kappelhof, M.; van Os, H. J.A.; Chalos, V.; van Kranendonk, K. R.; Kruyt, N. D.; Roos, Y. B.W.E.M.; van Zwam, W. H.; van der Schaaf, I. C.; van Walderveen, M. A.A.; Wermer, M. J.H.; van Oostenbrugge, R. J.; Lingsma, Hester; Dippel, Diederik; Majoie, C. B.L.M.; Marquering, H. A.
(2021) Computers in Biology and Medicine, volume 133, pp. 1 - 11
(Article)
Abstract
Despite the large overall beneficial effects of endovascular treatment in patients with acute ischemic stroke, severe disability or death still occurs in almost one-third of patients. These patients, who might not benefit from treatment, have been previously identified with traditional logistic regression models, which may oversimplify relations between characteristics and
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outcome, or machine learning techniques, which may be difficult to interpret. We developed and evaluated a novel evolutionary algorithm for fuzzy decision trees to accurately identify patients with poor outcome after endovascular treatment, which was defined as having a modified Rankin Scale score (mRS) higher or equal to 5. The created decision trees have the benefit of being comprehensible, easily interpretable models, making its predictions easy to explain to patients and practitioners. Insights in the reason for the predicted outcome can encourage acceptance and adaptation in practice and help manage expectations after treatment. We compared our proposed method to CART, the benchmark decision tree algorithm, on classification accuracy and interpretability. The fuzzy decision tree significantly outperformed CART: using 5-fold cross-validation with on average 1090 patients in the training set and 273 patients in the test set, the fuzzy decision tree misclassified on average 77 (standard deviation of 7) patients compared to 83 (±7) using CART. The mean number of nodes (decision and leaf nodes) in the fuzzy decision tree was 11 (±2) compared to 26 (±1) for CART decision trees. With an average accuracy of 72% and much fewer nodes than CART, the developed evolutionary algorithm for fuzzy decision trees might be used to gain insights into the predictive value of patient characteristics and can contribute to the development of more accurate medical outcome prediction methods with improved clarity for practitioners and patients.
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Keywords: Acute ischemic stroke, Decision trees, Endovascular treatment, Evolutionary algorithms, Fuzzy, Machine learning, Prognostics, Humans, Algorithms, Ischemic Stroke, Stroke/therapy, Brain Ischemia/therapy, Decision Trees, Health Informatics, Computer Science Applications, Research Support, Non-U.S. Gov't, Journal Article
ISSN: 0010-4825
Publisher: Elsevier Limited
Note: Funding Information: The MR CLEAN Registry was funded and carried out by the Erasmus University Medical Centre , Amsterdam University Medical Centre , and Maastricht University Medical Centre. The Registry was additionally funded by the Applied Scientific Institute for Neuromodulation (TWIN) . ITEA3—Medolution : Project number 14003 . Funding Information: The MR CLEAN Registry was funded and carried out by the Erasmus University Medical Centre, Amsterdam University Medical Centre, and Maastricht University Medical Centre. The Registry was additionally funded by the Applied Scientific Institute for Neuromodulation (TWIN). ITEA3?Medolution: Project number 14003. Publisher Copyright: © 2021 The Authors Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.
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