Dorraki Mohsen, Liao Zhibin, Abbott Derek, Psaltis Peter J, Baker Emma, Bidargaddi Niranjan, Wardill Hannah R, van den Hengel Anton, Narula Jagat, Verjans Johan W
School of Computer and Mathematical Sciences, The University of Adelaide, Adelaide, Australia.
Australian Institute for Machine Learning (AIML), Adelaide, Australia.
JACC Adv. 2024 Sep 25;3(9):101180. doi: 10.1016/j.jacadv.2024.101180. eCollection 2024 Sep.
Robust and accurate prediction of cardiovascular disease (CVD) risk facilitates early intervention to benefit patients. The intricate relationship between mental health disorders and CVD is widely recognized. However, existing models often overlook psychological factors, relying on a limited set of clinical and lifestyle parameters, or being developed on restricted population subsets.
This study aims to assess the impact of integrating psychological data into a novel machine learning (ML) approach on enhancing CVD prediction performance.
Using a comprehensive UK Biobank data set (n = 375,145), the correlation between CVD and traditional and psychological risk factors was examined. CVD included hypertensive disease, ischemic heart disease, heart failure, and arrhythmias. An ensemble ML model containing 5 constituent algorithms (decision tree, random forest, XGBoost, support vector machine, and deep neural network) was tested for its ability to predict CVD based on 2 training data sets: using traditional CVD risk factors alone, or using a combination of traditional and psychological risk factors.
A total of 375,145 subjects with normal health status and with CVD were included. The ensemble ML model could predict CVD with 71.31% accuracy using traditional CVD risk factors alone. However, by adding psychological factors to the training data, accuracy increased to 85.13%. The accuracy and robustness of the ensemble ML model outperformed all 5 constituent learning algorithms.
Incorporating mental health assessment data within an ensemble ML model results in a significantly improved, highly accurate, CVD prediction model, outperforming traditional risk factor prediction alone.
对心血管疾病(CVD)风险进行可靠且准确的预测有助于早期干预,从而使患者受益。心理健康障碍与心血管疾病之间的复杂关系已得到广泛认可。然而,现有模型往往忽视心理因素,依赖于有限的一组临床和生活方式参数,或者是在受限的人群子集上开发的。
本研究旨在评估将心理数据整合到一种新型机器学习(ML)方法中对提高心血管疾病预测性能的影响。
使用一个全面的英国生物银行数据集(n = 375,145),研究了心血管疾病与传统和心理风险因素之间的相关性。心血管疾病包括高血压病、缺血性心脏病、心力衰竭和心律失常。基于两个训练数据集测试了一个包含5种组成算法(决策树、随机森林、XGBoost、支持向量机和深度神经网络)的集成ML模型预测心血管疾病的能力:仅使用传统心血管疾病风险因素,或使用传统和心理风险因素的组合。
总共纳入了375,145名健康状况正常和患有心血管疾病的受试者。仅使用传统心血管疾病风险因素时,集成ML模型预测心血管疾病的准确率为71.31%。然而,通过在训练数据中添加心理因素,准确率提高到了85.13%。集成ML模型的准确率和稳健性优于所有5种组成学习算法。
将心理健康评估数据纳入集成ML模型可显著改进并产生高度准确的心血管疾病预测模型,其性能优于单独的传统风险因素预测。
