发热性疾病建模和诊断系统,用于在资源匮乏的环境中优化医疗决策

Daniel Asuquo , Kingsley Attai , Okure Obot , Moses Ekpenyong , Christie Akwaowo , Kiirya Arnold , Faith-Michael Uzoka
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引用次数: 0

摘要

由于湿度大、温度高,发热疾病在热带地区非常普遍。这些地区主要包括中低收入国家,往往面临着医疗基础设施不足和缺乏准确诊断发热疾病的熟练人员等挑战。区分一种发热疾病和另一种发热疾病是一项重大挑战,增加了准确诊断的复杂性。本研究开发了一个多症状多疾病模型来应对这一挑战,该模型利用了对实地研究的患者数据集进行的探索性数据分析以及热带疾病专业医生的专业知识。研究采用三种智能技术,调查了区分尼日利亚流行的 11 种发热疾病的最有效建模方法:极端梯度提升 (XGBoost)、模糊认知图 (FCM) 和层次分析法 (AHP)。比较分析表明,AHP 超越了其他技术,精确度达到 84%,召回率达到 83%,F1 分数达到 84%。因此,AHP 技术被整合到 "Febra Diagnostica "应用程序的开发中,该应用程序的目的是在资源有限的环境中加强发热疾病的诊断。该应用程序随后在尼日利亚部分州进行了部署和使用,提供了可扩展性,并增强了基层医疗机构一线卫生工作者的能力。Febra Diagnostica 具有用户友好的界面、自动诊断和治疗建议、简化的转诊程序以及进一步调查的规定。加密、访问控制和多因素验证是该应用程序在安全和隐私方面的一些考虑因素,它获得了医学专家的认可,并符合智能医疗系统的监管和道德政策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Febrile disease modeling and diagnosis system for optimizing medical decisions in resource-scarce settings

Febrile diseases are highly prevalent in tropical regions due to elevated humidity and high temperatures. These regions, mainly comprising low- and middle-income countries, often face challenges related to inadequate medical infrastructure and a lack of skilled personnel for accurately diagnosing febrile diseases. Distinguishing one febrile illness from another posed a significant challenge, adding to the complexity of accurate diagnoses. This study developed a multi-symptom multi-disease model to address this challenge, leveraging exploratory data analysis of patient datasets from field studies and the expertise of medical practitioners specializing in tropical diseases. The research investigated the most effective modeling approach for differentiating among 11 febrile illnesses that are prevalent in Nigeria using three intelligent techniques: Extreme Gradient Boost (XGBoost), Fuzzy Cognitive Map (FCM), and Analytic Hierarchy Process (AHP). Comparative analysis demonstrates that AHP surpassed the others, achieving a precision of 84%, recall of 83%, and an F1-score of 84%. Consequently, the AHP technique was integrated into the development of “Febra Diagnostica,” an app aimed at enhancing febrile disease diagnosis in resource-constrained settings. The app was then deployed and utilized in select Nigerian states, offering scalability and empowering frontline health workers in primary health facilities. Febra Diagnostica featured user-friendly interfaces, automated diagnosis and treatment suggestions, streamlined referrals, and provisions for further investigations. Encryption, access control, and multi-factor authentication were some of the security and privacy considerations in the app which gained acceptance from medical experts and adapted to regulatory and ethical policies for smart healthcare systems.

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