利用机器学习算法预测韩国重创老年患者的 30 天死亡率:一项回顾性研究。

Journal of Trauma and Injury Pub Date : 2024-09-01 Epub Date: 2024-08-08 DOI:10.20408/jti.2024.0024
Jonghee Han, Su Young Yoon, Junepill Seok, Jin Young Lee, Jin Suk Lee, Jin Bong Ye, Younghoon Sul, Se Heon Kim, Hong Rye Kim
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引用次数: 0

摘要

目的:老年创伤患者的数量正在不断增加;因此,有必要建立精确的模型来估计老年创伤患者的死亡风险,以便做出明智的临床决策。本研究旨在开发基于机器学习的预测模型,以预测重伤老年创伤患者的 30 天死亡率,并比较各种机器学习模型的预测性能:本研究的对象是年龄≥65 岁、受伤严重程度评分≥15 分、2016 年至 2022 年期间在忠北国立大学医院地区创伤中心就诊的患者。研究人员开发了四种机器学习模型--逻辑回归模型、决策树模型、随机森林模型和极梯度提升模型(XGBoost)--用于预测 30 天死亡率。使用接收者操作特征曲线下面积(AUC)、准确度、精确度、召回率、特异性、F1得分以及夏普利加性解释(SHAP)值和学习曲线等指标对这些模型的性能进行了比较:对机器学习模型预测重创老年患者死亡率的性能评估显示,逻辑回归、决策树、随机森林和 XGBoost 的 AUC 值分别为 0.938、0.863、0.919 和 0.934。在这四种模型中,XGBoost 的准确度、精确度、召回率、特异性和 F1 分数分别为 0.91、0.72、0.86、0.92 和 0.78,均表现优异。使用 SHAP 对 XGBoost 的重要特征进行分析后发现,格拉斯哥昏迷量表高会对死亡概率产生负面影响,而输血红细胞计数越高则与死亡概率呈正相关。学习曲线表明,随着训练实例的增加,泛化程度和稳健性也在提高:我们的研究表明,机器学习模型(尤其是 XGBoost)可用于预测严重创伤老年患者的 30 天死亡率。利用这些模型的预后工具有助于医生评估严重创伤老年患者的死亡风险。
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Predicting 30-day mortality in severely injured elderly patients with trauma in Korea using machine learning algorithms: a retrospective study.

Purpose: The number of elderly patients with trauma is increasing; therefore, precise models are necessary to estimate the mortality risk of elderly patients with trauma for informed clinical decision-making. This study aimed to develop machine learning based predictive models that predict 30-day mortality in severely injured elderly patients with trauma and to compare the predictive performance of various machine learning models.

Methods: This study targeted patients aged ≥65 years with an Injury Severity Score of ≥15 who visited the regional trauma center at Chungbuk National University Hospital between 2016 and 2022. Four machine learning models-logistic regression, decision tree, random forest, and eXtreme Gradient Boosting (XGBoost)-were developed to predict 30-day mortality. The models' performance was compared using metrics such as area under the receiver operating characteristic curve (AUC), accuracy, precision, recall, specificity, F1 score, as well as Shapley Additive Explanations (SHAP) values and learning curves.

Results: The performance evaluation of the machine learning models for predicting mortality in severely injured elderly patients with trauma showed AUC values for logistic regression, decision tree, random forest, and XGBoost of 0.938, 0.863, 0.919, and 0.934, respectively. Among the four models, XGBoost demonstrated superior accuracy, precision, recall, specificity, and F1 score of 0.91, 0.72, 0.86, 0.92, and 0.78, respectively. Analysis of important features of XGBoost using SHAP revealed associations such as a high Glasgow Coma Scale negatively impacting mortality probability, while higher counts of transfused red blood cells were positively correlated with mortality probability. The learning curves indicated increased generalization and robustness as training examples increased.

Conclusions: We showed that machine learning models, especially XGBoost, can be used to predict 30-day mortality in severely injured elderly patients with trauma. Prognostic tools utilizing these models are helpful for physicians to evaluate the risk of mortality in elderly patients with severe trauma.

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审稿时长
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