. 2023 Aug;46(4):411-424.

doi: 10.1002/nur.22322. Epub 2023 May 23.

Using machine-learning methods to predict in-hospital mortality through the Elixhauser index: A Medicare data analysis

Jianfang Liu¹, Sherry Glied², Olga Yakusheva³, Cohen Bevin⁴, Amelia E Schlak⁵, Sunmoo Yoon⁶, Kristine M Kulage⁷, Lusine Poghosyan⁸

Affiliations

¹ Columbia University School of Nursing, New York City, New York, USA.
² Robert F. Wagner Graduate School of Public Service, New York University, New York City, New York, USA.
³ University of Michigan School of Nursing, University of Michigan School of Public Health, Ann Arbor, Michigan, USA.
⁴ Mount Sinai Health System, New York City, New York, USA.
⁵ AAAS Science and Technology Policy Fellow, Office of Research and Development, U.S. Department of Veteran Affairs, Washington, DC, USA.
⁶ Division of General Medicine, Department of Medicine, Columbia University Irving Medical Center, New York City, New York, USA.
⁷ Office of Scholarship and Research Development, Columbia University School of Nursing, New York City, New York, USA.
⁸ Columbia University School of Nursing and Professor of Health Policy and Management, Mailman School of Public Health, Columbia University, Executive Director Center for Healthcare Delivery Research & Innovations (HDRI), New York City, New York, USA.

PMID: 37221452
PMCID: PMC10330510
DOI: 10.1002/nur.22322

Using machine-learning methods to predict in-hospital mortality through the Elixhauser index: A Medicare data analysis

Jianfang Liu et al. Res Nurs Health. 2023 Aug.

. 2023 Aug;46(4):411-424.

doi: 10.1002/nur.22322. Epub 2023 May 23.

Authors

Jianfang Liu¹, Sherry Glied², Olga Yakusheva³, Cohen Bevin⁴, Amelia E Schlak⁵, Sunmoo Yoon⁶, Kristine M Kulage⁷, Lusine Poghosyan⁸

Affiliations

¹ Columbia University School of Nursing, New York City, New York, USA.
² Robert F. Wagner Graduate School of Public Service, New York University, New York City, New York, USA.
³ University of Michigan School of Nursing, University of Michigan School of Public Health, Ann Arbor, Michigan, USA.
⁴ Mount Sinai Health System, New York City, New York, USA.
⁵ AAAS Science and Technology Policy Fellow, Office of Research and Development, U.S. Department of Veteran Affairs, Washington, DC, USA.
⁶ Division of General Medicine, Department of Medicine, Columbia University Irving Medical Center, New York City, New York, USA.
⁷ Office of Scholarship and Research Development, Columbia University School of Nursing, New York City, New York, USA.
⁸ Columbia University School of Nursing and Professor of Health Policy and Management, Mailman School of Public Health, Columbia University, Executive Director Center for Healthcare Delivery Research & Innovations (HDRI), New York City, New York, USA.

PMID: 37221452
PMCID: PMC10330510
DOI: 10.1002/nur.22322

Abstract

Accurate in-hospital mortality prediction can reflect the prognosis of patients, help guide allocation of clinical resources, and help clinicians make the right care decisions. There are limitations to using traditional logistic regression models when assessing the model performance of comorbidity measures to predict in-hospital mortality. Meanwhile, the use of novel machine-learning methods is growing rapidly. In 2021, the Agency for Healthcare Research and Quality published new guidelines for using the Present-on-Admission (POA) indicator from the International Classification of Diseases, Tenth Revision, for coding comorbidities to predict in-hospital mortality from the Elixhauser's comorbidity measurement method. We compared the model performance of logistic regression, elastic net model, and artificial neural network (ANN) to predict in-hospital mortality from Elixhauser's measures under the updated POA guidelines. In this retrospective analysis, 1,810,106 adult Medicare inpatient admissions from six US states admitted after September 23, 2017, and discharged before April 11, 2019 were extracted from the Centers for Medicare and Medicaid Services data warehouse. The POA indicator was used to distinguish pre-existing comorbidities from complications that occurred during hospitalization. All models performed well (C-statistics >0.77). Elastic net method generated a parsimonious model, in which there were five fewer comorbidities selected to predict in-hospital mortality with similar predictive power compared to the logistic regression model. ANN had the highest C-statistics compared to the other two models (0.800 vs. 0.791 and 0.791). Elastic net model and AAN can be applied successfully to predict in-hospital mortality.

Keywords: Elixhauser index; artificial neural network; elastic net model; in-hospital mortality; present-on- admission.

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Conflict of interest statement

Conflict of Interest Statement:

The authors declare no conflict of interest.

Figures

**Figure 1.**
The area under the receiver operating characteristic curve of using the VW composite score, multiple binary comorbidities, and binary comorbidities with other covariates to predict in-hospital mortality using three models.

**Figure 2.**
Decile calibration plots of measures E1-E3 to predict in-hospital mortality using logistic regression, elastic net models, and artificial neural networks.

See this image and copyright information in PMC

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Using machine-learning methods to predict in-hospital mortality through the Elixhauser index: A Medicare data analysis

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Using machine-learning methods to predict in-hospital mortality through the Elixhauser index: A Medicare data analysis

Authors

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Abstract

Conflict of interest statement

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