Your search keyword '"Lingyun Shi"' showing total 2 results

1. Using Data-Driven Machine Learning to Predict Unplanned ICU Transfers with Critical Deterioration from Electronic Health Records

Author

Lingyun Shi, Naveen Muthu, Gerald P. Shaeffer, Yujie Sun, Victor M. Ruiz Herrera, and Fuchiang R. Tsui

Abstract

Objective: We aimed to develop a data-driven machine learning model for predicting critical deterioration events from routinely collected EHR data in hospitalized children. Materials: This retrospective cohort study included all pediatric inpatients hospitalized on a medical or surgical ward between 2014–2018 at a quaternary children’s hospital. Methods: We developed a large data-driven approach and evaluated three machine learning models to predict pediatric critical deterioration events. We evaluated the models using a nested, stratified 10-fold cross-validation. The evaluation metrics included C-statistic, sensitivity, and positive predictive value. We also compared the machine learning models with patients identified as high-risk Watchers by bedside clinicians. Results: The study included 57,233 inpatient admissions from 34,976 unique patients. 3,943 variables were identified from the EHR data. The XGBoost model performed best (C-statistic=0.951, CI: 0.946 ∼ 0.956). Conclusions: Our data-driven machine learning models accurately predicted patient deterioration. Future sociotechnical analysis will inform deployment within the clinical setting.

Published

2022

2. Using Data-Driven Machine Learning to Predict Unplanned ICU Transfers with Critical Deterioration from Electronic Health Records.

Author

Lingyun Shi, Muthu, Naveen, Shaeffer, Gerald P., Yujie Sun, Herrera, Victor M. Ruiz, and Tsui, Fuchiang R.

Subjects

INTENSIVE care units, PREDICTIVE tests, CONFIDENCE intervals, CHILDREN'S hospitals, MACHINE learning, CONFERENCES & conventions, RETROSPECTIVE studies, REGRESSION analysis, HOSPITAL care, HOSPITAL wards, RESEARCH funding, ELECTRONIC health records, SENSITIVITY & specificity (Statistics), ARTIFICIAL neural networks, RECEIVER operating characteristic curves, HOSPITAL care of children, LONGITUDINAL method, NURSING assessment

Abstract

Objective: We aimed to develop a data-driven machine learning model for predicting critical deterioration events from routinely collected EHR data in hospitalized children. Materials: This retrospective cohort study included all pediatric inpatients hospitalized on a medical or surgical ward between 2014-2018 at a quaternary children's hospital. Methods: We developed a large data-driven approach and evaluated three machine learning models to predict pediatric critical deterioration events. We evaluated the models using a nested, stratified 10-fold cross-validation. The evaluation metrics included C-statistic, sensitivity, and positive predictive value. We also compared the machine learning models with patients identified as high-risk Watchers by bedside clinicians. Results: The study included 57,233 inpatient admissions from 34,976 unique patients. 3,943 variables were identified from the EHR data. The XGBoost model performed best (C-statistic=0.951, CI: 0.946 ~ 0.956). Conclusions: Our data-driven machine learning models accurately predicted patient deterioration. Future sociotechnical analysis will inform deployment within the clinical setting. [ABSTRACT FROM AUTHOR]

Published

2021