Machine learning model identifies aggressive acute pancreatitis within 48 h of admission: a large retrospective study

Lei Yuan; Mengyao Ji; Shuo Wang; Xinyu Wen; Pingxiao Huang; Lei Shen; Jun Xu

doi:10.1186/s12911-022-02066-3

BMC Medical Informatics and Decision Making (Nov 2022)

Machine learning model identifies aggressive acute pancreatitis within 48 h of admission: a large retrospective study

Lei Yuan,
Mengyao Ji,
Shuo Wang,
Xinyu Wen,
Pingxiao Huang,
Lei Shen,
Jun Xu

Affiliations

Lei Yuan: School of Automation, Nanjing University of Information Science and Technology
Mengyao Ji: Department of Gastroenterology, Wuhan University Renmin Hospital
Shuo Wang: Department of Gastroenterology, Wuhan University Renmin Hospital
Xinyu Wen: Department of Gastroenterology, Wuhan University Renmin Hospital
Pingxiao Huang: Department of Gastroenterology, The Central Hospital of Wuhan, Tongji Medical College, Huazhong University of Science and Technology
Lei Shen: Department of Gastroenterology, Wuhan University Renmin Hospital
Jun Xu: School of Automation, Nanjing University of Information Science and Technology

DOI: https://doi.org/10.1186/s12911-022-02066-3
Journal volume & issue: Vol. 22, no. 1
pp. 1 – 10

Abstract

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Abstract Background Acute pancreatitis (AP) with critical illness is linked to increased morbidity and mortality. Current risk scores to identify high-risk AP patients have certain limitations. Objective To develop and validate a machine learning tool within 48 h after admission for predicting which patients with AP will develop critical illness based on ubiquitously available clinical, laboratory, and radiologic variables. Methods 5460 AP patients were enrolled. Clinical, laboratory, and imaging variables were collected within 48 h after hospital admission. Least Absolute Shrinkage Selection Operator with bootstrap method was employed to select the most informative variables. Five different machine learning models were constructed to predictive likelihood of critical illness, and the optimal model (APCU) was selected. External cohort was used to validate APCU. APCU and other risk scores were compared using multivariate analysis. Models were evaluated by area under the curve (AUC). The decision curve analysis was employed to evaluate the standardized net benefit. Results Xgboost was constructed and selected as APCU, involving age, comorbid disease, mental status, pulmonary infiltrates, procalcitonin (PCT), neutrophil percentage (Neu%), ALT/AST, ratio of albumin and globulin, cholinesterase, Urea, Glu, AST and serum total cholesterol. The APCU performed excellently in discriminating AP risk in internal cohort (AUC = 0.95) and external cohort (AUC = 0.873). The APCU was significant for biliogenic AP (OR = 4.25 [2.08–8.72], P < 0.001), alcoholic AP (OR = 3.60 [1.67–7.72], P = 0.001), hyperlipidemic AP (OR = 2.63 [1.28–5.37], P = 0.008) and tumor AP (OR = 4.57 [2.14–9.72], P < 0.001). APCU yielded the highest clinical net benefit, comparatively. Conclusion Machine learning tool based on ubiquitously available clinical variables accurately predicts the development of AP, optimizing the management of AP.

Published in BMC Medical Informatics and Decision Making

ISSN: 1472-6947 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General): Computer applications to medicine. Medical informatics
Website: http://bmcmedinformdecismak.biomedcentral.com

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