Machine Learning for Clinical Decision Support of Acute Streptococcal Pharyngitis: A Pilot Study.

IF 1.8 4区医学 Q2 MEDICINE, GENERAL & INTERNAL Israel Medical Association Journal Pub Date : 2024-05-01

Oshrit Hoffer, Moriya Cohen, Maya Gerstein, Vered Shkalim Zemer, Yael Richenberg, Shay Nathanson, Herman Avner Cohen

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Abstract

Background: Group A Streptococcus (GAS) is the predominant bacterial pathogen of pharyngitis in children. However, distinguishing GAS from viral pharyngitis is sometimes difficult. Unnecessary antibiotic use contributes to unwanted side effects, such as allergic reactions and diarrhea. It also may increase antibiotic resistance.

Objectives: To evaluate the effect of a machine learning algorithm on the clinical evaluation of bacterial pharyngitis in children.

Methods: We assessed 54 children aged 2-17 years who presented to a primary healthcare clinic with a sore throat and fever over 38°C from 1 November 2021 to 30 April 2022. All children were tested with a streptococcal rapid antigen detection test (RADT). If negative, a throat culture was performed. Children with a positive RADT or throat culture were considered GAS-positive and treated antibiotically for 10 days, as per guidelines. Children with negative RADT tests throat cultures were considered positive for viral pharyngitis. The children were allocated into two groups: Group A streptococcal pharyngitis (GAS-P) (n=36) and viral pharyngitis (n=18). All patients underwent a McIsaac score evaluation. A linear support vector machine algorithm was used for classification.

Results: The machine learning algorithm resulted in a positive predictive value of 80.6 % (27 of 36) for GAS-P infection. The false discovery rates for GAS-P infection were 19.4 % (7 of 36).

Conclusions: Applying the machine-learning strategy resulted in a high positive predictive value for the detection of streptococcal pharyngitis and can contribute as a medical decision aid in the diagnosis and treatment of GAS-P.

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用于急性链球菌性咽炎临床决策支持的机器学习：一项试点研究

背景：A 组链球菌（GAS）是儿童咽炎的主要细菌病原体。然而，有时很难将 GAS 与病毒性咽炎区分开来。不必要地使用抗生素会导致不必要的副作用，如过敏反应和腹泻。目的：评估机器学习算法的效果：评估机器学习算法对儿童细菌性咽炎临床评估的影响：我们对 2021 年 11 月 1 日至 2022 年 4 月 30 日期间因咽喉痛和发烧超过 38°C 到初级保健诊所就诊的 54 名 2-17 岁儿童进行了评估。所有儿童都接受了链球菌快速抗原检测试验（RADT）。如果检测结果呈阴性，则进行咽喉培养。RADT 或咽喉培养呈阳性的儿童被视为肺炎球菌阳性，并根据指南接受为期 10 天的抗生素治疗。RADT 检测咽喉培养呈阴性的儿童被视为病毒性咽炎阳性。儿童被分为两组：A组链球菌咽炎（GAS-P）（36人）和病毒性咽炎（18人）。所有患者都接受了 McIsaac 评分评估。采用线性支持向量机算法进行分类：结果：机器学习算法对 GAS-P 感染的阳性预测值为 80.6%（36 例中有 27 例）。GAS-P 感染的误诊率为 19.4%（36 例中有 7 例）：结论：应用机器学习策略检测链球菌性咽炎的阳性预测值很高，可作为诊断和治疗 GAS-P 的医疗决策辅助工具。

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

Israel Medical Association Journal 医学-医学：内科

CiteScore

2.20

自引率

12.50%

发文量

审稿时长

3-8 weeks

期刊介绍： The Israel Medical Association Journal (IMAJ), representing medical sciences and medicine in Israel, is published in English by the Israel Medical Association. The Israel Medical Association Journal (IMAJ) was initiated in 1999.

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