Development of a System for Predicting Hospitalization Time for Patients With Traumatic Brain Injury Based on Machine Learning Algorithms: User-Centered Design Case Study.

IF 2.6 Q2 HEALTH CARE SCIENCES & SERVICES JMIR Human Factors Pub Date : 2024-08-30 DOI:10.2196/62866
Huan Zhou, Cheng Fang, Yifeng Pan
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Abstract

Background: Currently, the treatment and care of patients with traumatic brain injury (TBI) are intractable health problems worldwide and greatly increase the medical burden in society. However, machine learning-based algorithms and the use of a large amount of data accumulated in the clinic in the past can predict the hospitalization time of patients with brain injury in advance, so as to design a reasonable arrangement of resources and effectively reduce the medical burden of society. Especially in China, where medical resources are so tight, this method has important application value.

Objective: We aimed to develop a system based on a machine learning model for predicting the length of hospitalization of patients with TBI, which is available to patients, nurses, and physicians.

Methods: We collected information on 1128 patients who received treatment at the Neurosurgery Center of the Second Affiliated Hospital of Anhui Medical University from May 2017 to May 2022, and we trained and tested the machine learning model using 5 cross-validations to avoid overfitting; 28 types of independent variables were used as input variables in the machine learning model, and the length of hospitalization was used as the output variables. Once the models were trained, we obtained the error and goodness of fit (R2) of each machine learning model from the 5 rounds of cross-validation and compared them to select the best predictive model to be encapsulated in the developed system. In addition, we externally tested the models using clinical data related to patients treated at the First Affiliated Hospital of Anhui Medical University from June 2021 to February 2022.

Results: Six machine learning models were built, including support vector regression machine, convolutional neural network, back propagation neural network, random forest, logistic regression, and multilayer perceptron. Among them, the support vector regression has the smallest error of 10.22% on the test set, the highest goodness of fit of 90.4%, and all performances are the best among the 6 models. In addition, we used external datasets to verify the experimental results of these 6 models in order to avoid experimental chance, and the support vector regression machine eventually performed the best in the external datasets. Therefore, we chose to encapsulate the support vector regression machine into our system for predicting the length of stay of patients with traumatic brain trauma. Finally, we made the developed system available to patients, nurses, and physicians, and the satisfaction questionnaire showed that patients, nurses, and physicians agreed that the system was effective in providing clinical decisions to help patients, nurses, and physicians.

Conclusions: This study shows that the support vector regression machine model developed using machine learning methods can accurately predict the length of hospitalization of patients with TBI, and the developed prediction system has strong clinical use.

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基于机器学习算法的创伤性脑损伤患者住院时间预测系统的开发:以用户为中心的设计案例研究。
背景:目前,创伤性脑损伤(TBI)患者的治疗和护理是世界范围内棘手的健康问题,大大增加了社会的医疗负担。然而,基于机器学习的算法,利用以往临床积累的大量数据,可以提前预测脑损伤患者的住院时间,从而设计合理的资源安排,有效减轻社会医疗负担。特别是在医疗资源紧张的中国,这种方法具有重要的应用价值:我们旨在开发一套基于机器学习模型的系统,用于预测创伤性脑损伤患者的住院时间,供患者、护士和医生使用:我们收集了2017年5月至2022年5月在安徽医科大学第二附属医院神经外科中心接受治疗的1128名患者的信息,为了避免过拟合,我们使用5次交叉验证对机器学习模型进行了训练和测试;28种自变量被用作机器学习模型的输入变量,住院时间被用作输出变量。模型训练完成后,我们从 5 轮交叉验证中获得了每个机器学习模型的误差和拟合优度(R2),并对其进行比较,以选出最佳预测模型,将其封装到开发的系统中。此外,我们还利用 2021 年 6 月至 2022 年 2 月在安徽医科大学第一附属医院接受治疗的患者的相关临床数据对模型进行了外部测试:我们建立了六个机器学习模型,包括支持向量回归机、卷积神经网络、反向传播神经网络、随机森林、逻辑回归和多层感知器。其中,支持向量回归机在测试集上的误差最小,为 10.22%,拟合度最高,为 90.4%,所有性能都是 6 个模型中最好的。此外,为了避免实验的偶然性,我们使用了外部数据集来验证这 6 个模型的实验结果,最终支持向量回归机在外部数据集中的表现最好。因此,我们选择将支持向量回归机封装到我们的系统中,用于预测脑外伤患者的住院时间。最后,我们将开发的系统提供给病人、护士和医生使用,满意度调查问卷显示,病人、护士和医生都认为该系统能有效地提供临床决策,帮助病人、护士和医生:本研究表明,利用机器学习方法开发的支持向量回归机模型可以准确预测创伤性脑损伤患者的住院时间,所开发的预测系统具有很强的临床应用价值。
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来源期刊
JMIR Human Factors
JMIR Human Factors Medicine-Health Informatics
CiteScore
3.40
自引率
3.70%
发文量
123
审稿时长
12 weeks
期刊最新文献
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