Development and Validation of a Simplified Prehospital Triage Model Using Neural Network to Predict Mortality in Trauma Patients: The Ability to Follow Commands, Age, Pulse Rate, Systolic Blood Pressure and Peripheral Oxygen Saturation (CAPSO) Model.

Yun Li,Feihu Zhou,Zhengbo Zhang,Yuyan Liu,Rui Yuan,Yong Fan,Hongjun Kang,Yan Zhao,Mengmeng Yang,Lu Wang

doi:10.3389/fmed.2021.810195

Yun Li, Feihu Zhou + Show 8 more

Open Access

https://doi.org/10.3389/fmed.2021.810195

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Abstract

Objective: Most trauma scoring systems with high accuracy are difficult to use quickly in field triage, especially in the case of mass casualty events. We aimed to develop a machine learning model for trauma mortality prediction using variables easy to obtain in the prehospital setting.Methods: This was a retrospective prognostic study using the National Trauma Data Bank (NTDB). Data from 2013 to 2016 were used for model training and internal testing, and data from 2017 were used for validation. A neural network model (NN-CAPSO) was developed using the ability to follow commands (whether GCS-motor was <6), age, pulse rate, systolic blood pressure (SBP) and peripheral oxygen saturation, and a new score (the CAPSO score) was developed based on logistic regression. To achieve further simplification, a neural network model with the SBP variable removed (NN-CAPO) was also developed. The discrimination ability of different models and scores was compared based on the area under the receiver operating characteristic curve (AUROC). Furthermore, a reclassification table with three defined risk groups was used to compare NN-CAPSO and other models or scores.Results: The NN-CAPSO had an AUROC of 0.911(95% confidence interval 0.909 to 0.913) in the validation set, which was higher than the other trauma scores available for prehospital settings (all p < 0.001). The NN-CAPO and CAPSO score both reached the AUROC of 0.904 (95% confidence interval 0.902 to 0.906), and were no worse than other prehospital trauma scores. Compared with the NN-CAPO, CAPSO score, and the other trauma scores in reclassification tables, NN-CAPSO was found to more accurately classify patients to the right risk groups.Conclusions: The newly developed CAPSO system simplifies the method of consciousness assessment and has the potential to accurately predict trauma patient mortality in the prehospital setting.

Highlights

Trauma remains one of the leading causes of death and disability worldwide [1]
We aimed to develop a machine learning model for trauma mortality prediction using variables easy to obtain in the prehospital setting
The NN-CAPSO had an area under the receiver operating characteristic curve (AUROC) of 0.911(95% confidence interval 0.909 to 0.913) in the validation set, which was higher than the other trauma scores available for prehospital settings

Summary

Introduction

Trauma remains one of the leading causes of death and disability worldwide [1]. Patients with severe trauma often benefit from receiving treatment at a higher level of care [2]. The Revised Trauma Score (RTS), which was first proposed in 1989, used respiratory rate (RR), systolic blood pressure (SBP), and Glasgow Coma Scale (GCS) to calculate the probability of survival and is still widely used today [4]. The Trauma Rating Index in Age, Glasgow Coma Scale, Respiratory rate and Systolic blood pressure (TRIAGES) score used a generalized additive model to delineate the interval of variables and had better performance than the GAP score with the addition of the respiratory rate variable [8]. The reliability of complete GCS score is dependent on relevant training and education [11], and it is often difficult for nonprofessional personnel involved in triage to accurately assess the GCS [12]

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