Mortality Prediction in Emergency Department Using Machine Learning Models

Sina Moosavi Kashani, Sanaz Zargar
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引用次数: 1

Abstract

Background: Diagnosing patient deterioration and preventing unexpected deaths in the emergency department is a complex task that relies on the expertise and comprehensive understanding of emergency physicians concerning extensive clinical data. Objectives: Our study aimed to predict emergency department mortality and compare different models. Methods: During a one-month period, demographic information and records were collected from 1,000 patients admitted to the emergency department of a selected hospital in Tehran. We rigorously followed The Cross Industry Standard Process for data mining and methodically progressed through its sequential steps. We employed Cat Boost and Random Forest models for prediction purposes. To prevent overfitting, Random Forest feature selection was employed. Expert judgment was utilized to eliminate features with an importance score below 0.0095. To achieve a more thorough and dependable assessment, we implemented a K-fold cross-validation method with a value of 5. Results: The Cat Boost model outperformed Random Forest significantly, showcasing an impressive mean accuracy of 0.94 (standard deviation: 0.03). Ejection fraction, urea (body waste materials), and diabetes had the greatest impact on prediction. Conclusions: This study sheds light on the exceptional accuracy and efficiency of machine learning in predicting emergency department mortality, surpassing the performance of traditional models. Implementing such models can result in significant improvements in early diagnosis and intervention. This, in turn, allows for optimal resource allocation in the emergency department, preventing the excessive consumption of resources and ultimately saving lives while enhancing patient outcomes.
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基于机器学习模型的急诊科死亡率预测
背景:在急诊科诊断患者病情恶化和预防意外死亡是一项复杂的任务,它依赖于急诊医生对大量临床数据的专业知识和全面理解。目的:本研究旨在预测急诊科死亡率并比较不同的模型。方法:在一个月的时间里,收集了德黑兰一家选定医院急诊科收治的1000名患者的人口统计信息和记录。我们严格遵循数据挖掘的跨行业标准流程,并有条不紊地按照其顺序步骤进行。我们使用Cat Boost和Random Forest模型进行预测。为了防止过拟合,采用随机森林特征选择。利用专家判断剔除重要性分数低于0.0095的特征。为了获得更彻底和可靠的评估,我们实施了K-fold交叉验证方法,其值为5。结果:Cat Boost模型显著优于Random Forest,显示了令人印象深刻的平均精度0.94(标准差:0.03)。射血分数、尿素(身体废物)和糖尿病对预测的影响最大。结论:本研究揭示了机器学习在预测急诊科死亡率方面的卓越准确性和效率,超越了传统模型的表现。实施这些模型可以显著改善早期诊断和干预。反过来,这可以优化急诊科的资源分配,防止资源的过度消耗,并最终挽救生命,同时提高患者的治疗效果。
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