Validation of an acute respiratory infection phenotyping algorithm to support robust computerised medical record-based respiratory sentinel surveillance, England, 2023.

IF 9.9 2区 医学 Q1 INFECTIOUS DISEASES
William H Elson, Gavin Jamie, Rashmi Wimalaratna, Anna Forbes, Meredith Leston, Cecilia Okusi, Rachel Byford, Utkarsh Agrawal, Dan Todkill, Alex J Elliot, Conall Watson, Maria Zambon, Roger Morbey, Jamie Lopez Bernal, Fd Richard Hobbs, Simon de Lusignan
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引用次数: 0

Abstract

IntroductionRespiratory sentinel surveillance systems leveraging computerised medical records (CMR) use phenotyping algorithms to identify cases of interest, such as acute respiratory infection (ARI). The Oxford-Royal College of General Practitioners Research and Surveillance Centre (RSC) is the English primary care-based sentinel surveillance network.AimThis study describes and validates the RSC's new ARI phenotyping algorithm.MethodsWe developed the phenotyping algorithm using a framework aligned with international interoperability standards. We validated our algorithm by comparing ARI events identified during the 2022/23 influenza season in England through use of both old and new algorithms. We compared clinical codes commonly used for recording ARI.ResultsThe new algorithm identified an additional 860,039 cases and excluded 52,258, resulting in a net increase of 807,781 cases (33.84%) of ARI compared to the old algorithm, with totals of 3,194,224 cases versus 2,386,443 cases. Of the 860,039 newly identified cases, the majority (63.7%) were due to identification of symptom codes suggestive of an ARI diagnosis not detected by the old algorithm. The 52,258 cases incorrectly identified by the old algorithm were due to inadvertent identification of chronic, recurrent, non-infectious and other non-ARI disease.ConclusionWe developed a new ARI phenotyping algorithm that more accurately identifies cases of ARI from the CMR. This will benefit public health by providing more accurate surveillance reports to public health authorities. This new algorithm can serve as a blueprint for other CMR-based surveillance systems wishing to develop similar phenotyping algorithms.

验证急性呼吸道感染表型算法,为基于计算机病历的呼吸道哨点监测提供有力支持,英格兰,2023 年。
导言:利用计算机病历(CMR)的呼吸道定点监测系统使用表型算法来识别相关病例,如急性呼吸道感染(ARI)。牛津-皇家全科医师学院研究与监测中心(RSC)是英国以初级保健为基础的哨点监测网络。本研究描述并验证了 RSC 的新 ARI 表型算法。我们通过比较英格兰 2022/23 年流感季节期间通过使用新旧算法发现的 ARI 事件,验证了我们的算法。结果与旧算法相比,新算法又发现了 860,039 例病例,排除了 52,258 例病例,导致 ARI 病例净增加 807,781 例(33.84%),总数为 3,194,224 例对 2,386,443 例。在新发现的 860 039 个病例中,大部分(63.7%)是由于发现了旧算法未发现的提示 ARI 诊断的症状代码。旧算法错误识别的 52,258 个病例是由于无意中识别了慢性、复发性、非感染性和其他非急性呼吸道感染疾病。这将有利于公共卫生,为公共卫生机构提供更准确的监测报告。这一新算法可为其他希望开发类似表型算法的基于 CMR 的监测系统提供蓝本。
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来源期刊
Eurosurveillance
Eurosurveillance INFECTIOUS DISEASES-
CiteScore
32.70
自引率
2.10%
发文量
430
审稿时长
3-8 weeks
期刊介绍: Eurosurveillance is a European peer-reviewed journal focusing on the epidemiology, surveillance, prevention, and control of communicable diseases relevant to Europe.It is a weekly online journal, with 50 issues per year published on Thursdays. The journal includes short rapid communications, in-depth research articles, surveillance reports, reviews, and perspective papers. It excels in timely publication of authoritative papers on ongoing outbreaks or other public health events. Under special circumstances when current events need to be urgently communicated to readers for rapid public health action, e-alerts can be released outside of the regular publishing schedule. Additionally, topical compilations and special issues may be provided in PDF format.
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