Intelligent type 2 diabetes risk prediction from administrative claim data.

IF 2.5 4区医学 Q2 HEALTH CARE SCIENCES & SERVICES

Informatics for Health & Social Care Pub Date : 2022-07-03 Epub Date: 2021-10-21 DOI:10.1080/17538157.2021.1988957

Shahadat Uddin, Tasadduq Imam, Md Ekramul Hossain, Ergun Gide, Omid Ameri Sianaki, Mohammad Ali Moni, Ashwaq Amer Mohammed, Vandana Vandana

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引用次数: 2

Abstract

Type 2 diabetes is a chronic, costly disease and is a serious global population health problem. Yet, the disease is well manageable and preventable if there is an early warning. This study aims to apply supervised machine learning algorithms for developing predictive models for type 2 diabetes using administrative claim data. Following guidelines from the Elixhauser Comorbidity Index, 31 variables were considered. Five supervised machine learning algorithms were used for developing type 2 diabetes prediction models. Principal component analysis was applied to rank variables' importance in predictive models. Random forest (RF) showed the highest accuracy (85.06%) among the algorithms, closely followed by the k-nearest neighbor (84.48%). The analysis further revealed RF as a high performing algorithm irrespective of data imbalance. As revealed by the principal component analysis, patient age is the most important predictor for type 2 diabetes, followed by a comorbid condition (i.e., solid tumor without metastasis). This study's finding of RF as the best performing classifier is consistent with the promise of tree-based algorithms for public data in other works. Thus, the outcome can guide in designing automated surveillance of patients at risk of forming diabetes from administrative claim information and will be useful to health regulators and insurers.

查看原文本刊更多论文

基于行政索赔数据的2型糖尿病风险智能预测。

2型糖尿病是一种慢性、昂贵的疾病，是一个严重的全球人口健康问题。然而，如果有早期预警，这种疾病是可以很好地控制和预防的。本研究旨在应用监督机器学习算法，利用行政索赔数据开发2型糖尿病的预测模型。按照Elixhauser共病指数的指导方针，考虑了31个变量。五种监督式机器学习算法用于开发2型糖尿病预测模型。应用主成分分析对预测模型中变量的重要性进行排序。随机森林(Random forest, RF)算法的准确率最高(85.06%)，其次是k近邻算法(84.48%)。分析进一步表明，无论数据不平衡如何，RF都是一种高性能算法。主成分分析显示，患者年龄是2型糖尿病最重要的预测因子，其次是合并症(即无转移的实体瘤)。本研究发现RF是表现最好的分类器，这与其他作品中基于树的公共数据算法的承诺是一致的。因此，研究结果可以指导根据行政索赔信息设计对有糖尿病风险患者的自动监测，对卫生监管机构和保险公司也很有用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Informatics for Health & Social Care 医学-卫生保健

CiteScore

6.10

自引率

4.20%

发文量

审稿时长

>12 weeks

期刊介绍： Informatics for Health & Social Care promotes evidence-based informatics as applied to the domain of health and social care. It showcases informatics research and practice within the many and diverse contexts of care; it takes personal information, both its direct and indirect use, as its central focus. The scope of the Journal is broad, encompassing both the properties of care information and the life-cycle of associated information systems. Consideration of the properties of care information will necessarily include the data itself, its representation, structure, and associated processes, as well as the context of its use, highlighting the related communication, computational, cognitive, social and ethical aspects. Consideration of the life-cycle of care information systems includes full range from requirements, specifications, theoretical models and conceptual design through to sustainable implementations, and the valuation of impacts. Empirical evidence experiences related to implementation are particularly welcome. Informatics in Health & Social Care seeks to consolidate and add to the core knowledge within the disciplines of Health and Social Care Informatics. The Journal therefore welcomes scientific papers, case studies and literature reviews. Examples of novel approaches are particularly welcome. Articles might, for example, show how care data is collected and transformed into useful and usable information, how informatics research is translated into practice, how specific results can be generalised, or perhaps provide case studies that facilitate learning from experience.