A hybrid data envelopment analysis—artificial neural network prediction model for COVID-19 severity in transplant recipients
作者:Ignacio Revuelta, Francisco J. Santos-Arteaga, Enrique Montagud-Marrahi, Pedro Ventura-Aguiar, Debora Di Caprio, Frederic Cofan, David Cucchiari, Vicens Torregrosa, Gaston Julio Piñeiro, Nuria Esforzado, Marta Bodro, Jessica Ugalde-Altamirano, Asuncion Moreno, Josep M. Campistol, Antonio Alcaraz, Beatriu Bayès, Esteban Poch, Federico Oppenheimer, Fritz Diekmann
摘要
In an overwhelming demand scenario, such as the SARS-CoV-2 pandemic, pressure over health systems may outburst their predicted capacity to deal with such extreme situations. Therefore, in order to successfully face a health emergency, scientific evidence and validated models are needed to provide real-time information that could be applied by any health center, especially for high-risk populations, such as transplant recipients. We have developed a hybrid prediction model whose accuracy relative to several alternative configurations has been validated through a battery of clustering techniques. Using hospital admission data from a cohort of hospitalized transplant patients, our hybrid Data Envelopment Analysis (DEA)—Artificial Neural Network (ANN) model extrapolates the progression towards severe COVID-19 disease with an accuracy of 96.3%, outperforming any competing model, such as logistic regression (65.5%) and random forest (44.8%). In this regard, DEA-ANN allows us to categorize the evolution of patients through the values of the analyses performed at hospital admission. Our prediction model may help guiding COVID-19 management through the identification of key predictors that permit a sustainable management of resources in a patient-centered model.
论文关键词:COVID-19, Kidney transplant, Data envelopment analysis, Artificial neural network, Logistic regression, Random forest
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论文官网地址:https://doi.org/10.1007/s10462-021-10008-0