@article{HerzogJouanneDiedrichWanneretal.2021, author = {Herzog, Anna Laura and Jouanne-Diedrich, Holger K. von and Wanner, Christoph and Weismann, Dirk and Schlesinger, Tobias and Meybohm, Patrick and Stumpner, Jan}, title = {COVID-19 and the kidney: A retrospective analysis of 37 critically ill patients using machine learning}, series = {Plos one}, volume = {2021}, journal = {Plos one}, number = {Online/2021}, editor = {Serra, Raffaele}, doi = {https://doi.org/10.1371/journal.pone.0251932}, pages = {1 -- 15}, year = {2021}, abstract = {Introduction There is evidence that SARS-CoV2 has a particular affinity for kidney tissue and is often associated with kidney failure. Methods We assessed whether proteinuria can be predictive of kidney failure, the development of chronic kidney disease, and mortality in 37 critically ill COVID-19 patients. We used machine learning (ML) methods as decision trees and cut-off points created by the OneR package to add new aspects, even in smaller cohorts. Results Among a total of 37 patients, 24 suffered higher-grade renal failure, 20 of whom required kidney replacement therapy. More than 40\% of patients remained on hemodialysis after intensive care unit discharge or died (27\%). Due to frequent anuria proteinuria measured in two-thirds of the patients, it was not predictive for the investigated endpoints; albuminuria was higher in patients with AKI 3, but the difference was not significant. ML found cut-off points of >31.4 kg/ m2 for BMI and >69 years for age, constructed decision trees with great accuracy, and identified highly predictive variables for outcome and remaining chronic kidney disease. Conclusions Different ML methods and their clinical application, especially decision trees, can provide valuable support for clinical decisions. Presence of proteinuria was not predictive of CKD or AKI and should be confirmed in a larger cohort.}, subject = {COVID-19}, language = {en} }