COVID-19 Symptom Monitoring and Social Distancing in a University Population.

IF 5.9 Q1 Computer Science

Journal of Healthcare Informatics Research Pub Date : 2021-01-01 Epub Date: 2021-01-07 DOI:10.1007/s41666-020-00089-x

Janusz Wojtusiak, Pramita Bagchi, Sri Surya Krishna Rama Taraka Naren Durbha, Hedyeh Mobahi, Reyhaneh Mogharab Nia, Amira Roess

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引用次数: 7

Abstract

This paper reports on our efforts to collect daily COVID-19-related symptoms for a large public university population, as well as study relationship between reported symptoms and individual movements. We developed a set of tools to collect and integrate individual-level data. COVID-19-related symptoms are collected using a self-reporting tool initially implemented in Qualtrics survey system and consequently moved to .NET framework. Individual movement data are collected using off-the-shelf tracking apps available for iPhone and Android phones. Data integration and analysis are done in PostgreSQL, Python, and R. As of September 2020, we collected about 184,000 daily symptom responses for 20,000 individuals, as well as over 15,000 days of GPS movement data for 175 individuals. The analysis of the data indicates that headache is the most frequently reported symptom, present almost always when any other symptoms are reported as indicated by derived association rules. It is followed by cough, sore throat, and aches. The study participants traveled on average 223.61 km every week with a large standard deviation of 254.53 and visited on average 5.77 ± 4.75 locations each week for at least 10 min. However, there is no evidence that reported symptoms or prior COVID-19 contact affects movements (p > 0.3 in most models). The evidence suggests that although some individuals limit their movements during pandemics, the overall study population do not change their movements as suggested by guidelines.

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大学人群COVID-19症状监测与社交距离

本文报道了我们为收集大量公立大学人群的每日covid -19相关症状所做的努力，以及研究报告的症状与个人运动之间的关系。我们开发了一套工具来收集和整合个人层面的数据。使用最初在qualics调查系统中实现的自我报告工具收集与covid -19相关的症状，随后转移到。net框架。个人运动数据是通过现成的iPhone和Android手机跟踪应用程序收集的。数据整合和分析是在PostgreSQL、Python和r语言中完成的。截至2020年9月，我们收集了2万人的18.4万例日常症状反应，以及175人的1.5万多天的GPS运动数据。对数据的分析表明，头痛是最常报告的症状，几乎总是在根据导出的关联规则报告任何其他症状时出现。其次是咳嗽、喉咙痛和疼痛。研究参与者平均每周旅行223.61公里，标准偏差为254.53，平均每周访问5.77±4.75个地点至少10分钟。然而，没有证据表明报告的症状或先前的COVID-19接触会影响运动(大多数模型的p > 0.3)。证据表明，虽然有些人在大流行期间限制了他们的活动，但总体研究人群并未按照指南的建议改变他们的活动。

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

Journal of Healthcare Informatics Research Computer Science-Computer Science Applications

CiteScore

13.60

自引率

1.70%

发文量

期刊介绍： Journal of Healthcare Informatics Research serves as a publication venue for the innovative technical contributions highlighting analytics, systems, and human factors research in healthcare informatics.Journal of Healthcare Informatics Research is concerned with the application of computer science principles, information science principles, information technology, and communication technology to address problems in healthcare, and everyday wellness. Journal of Healthcare Informatics Research highlights the most cutting-edge technical contributions in computing-oriented healthcare informatics. The journal covers three major tracks: (1) analytics—focuses on data analytics, knowledge discovery, predictive modeling; (2) systems—focuses on building healthcare informatics systems (e.g., architecture, framework, design, engineering, and application); (3) human factors—focuses on understanding users or context, interface design, health behavior, and user studies of healthcare informatics applications. Topics include but are not limited to: · healthcare software architecture, framework, design, and engineering;· electronic health records· medical data mining· predictive modeling· medical information retrieval· medical natural language processing· healthcare information systems· smart health and connected health· social media analytics· mobile healthcare· medical signal processing· human factors in healthcare· usability studies in healthcare· user-interface design for medical devices and healthcare software· health service delivery· health games· security and privacy in healthcare· medical recommender system· healthcare workflow management· disease profiling and personalized treatment· visualization of medical data· intelligent medical devices and sensors· RFID solutions for healthcare· healthcare decision analytics and support systems· epidemiological surveillance systems and intervention modeling· consumer and clinician health information needs, seeking, sharing, and use· semantic Web, linked data, and ontology· collaboration technologies for healthcare· assistive and adaptive ubiquitous computing technologies· statistics and quality of medical data· healthcare delivery in developing countries· health systems modeling and simulation· computer-aided diagnosis