We propose a machine learning model capable of predicting COVID-19 post-acute rehabilitation duration by means of data taken before the start of the rehabilitative path. Data from 62 patients recovering after SARS-CoV2 infection were processed in our study. Anagraphical and anamnestic data, COVID-19 signs and symptoms, COVID-19-related therapy, haematochemical findings, clinical and functional scales and therapies prescribed during the acute phase were included as predictors of the rehabilitation hospital length of stay. A set of 10 features was retained, through sequential feature selection technique, for training the model. Via Support Vector Regression, we obtained a median cross-validation absolute error of 5.91 days (IQR = 14.85 days) in predicting the duration of the COVID-19 rehabilitation. This study aims to introduce machine learning into the COVID-19 rehabilitative path definition. With COVID-19 cases still harassing the community, the model will be tested in clinical settings to test its efficiency and improve its generalization capability.
Setti, E., Liuzzi, P., Campagnini, S., Fanciullacci, C., Arienti, C., Patrini, M., et al. (2021). Predicting post COVID-19 rehabilitation duration with linear kernel SVR. In BHI 2021 - 2021 IEEE EMBS International Conference on Biomedical and Health Informatics, Proceedings. Institute of Electrical and Electronics Engineers Inc. [10.1109/BHI50953.2021.9508602].
Predicting post COVID-19 rehabilitation duration with linear kernel SVR
Carrozza M. C.
2021
Abstract
We propose a machine learning model capable of predicting COVID-19 post-acute rehabilitation duration by means of data taken before the start of the rehabilitative path. Data from 62 patients recovering after SARS-CoV2 infection were processed in our study. Anagraphical and anamnestic data, COVID-19 signs and symptoms, COVID-19-related therapy, haematochemical findings, clinical and functional scales and therapies prescribed during the acute phase were included as predictors of the rehabilitation hospital length of stay. A set of 10 features was retained, through sequential feature selection technique, for training the model. Via Support Vector Regression, we obtained a median cross-validation absolute error of 5.91 days (IQR = 14.85 days) in predicting the duration of the COVID-19 rehabilitation. This study aims to introduce machine learning into the COVID-19 rehabilitative path definition. With COVID-19 cases still harassing the community, the model will be tested in clinical settings to test its efficiency and improve its generalization capability.
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