Henna Hyrkäs-Palmu, Timo T Hugg, Jouni J K Jaakkola, Tiina M Ikäheimo
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引用次数: 0
Abstract
Background: Weather can independently affect the occurrence of respiratory tract infections (RTIs) in urban areas. Built environments of cities could further modify exposure to weather and consequently the risk of RTIs, but their combined effects on infections are not known.
Objectives: Our aim was to synthesize evidence of the influence of weather on RTIs in urban areas and to examine whether urban built environments are associated with both weather and RTIs.
Methods: A systematic search of Scopus, PubMed, and Web of Science databases was conducted on 9th of August 2022 following PRISMA guidelines. Studies were included in the review based on predefined criteria by screening 5,789 articles and reviewing reference lists of relevant studies. The quality of the studies was assessed using the AXIS appraisal tool, and the results analyzed by narrative synthesis.
Results: Twenty-one eligible studies focusing on COVID-19 and influenza transmissions, were included in the review. All studies were register based ecological studies by design. Low temperature (11/19 studies) was most often associated with increased risk of RTI. Humidity showed either negative (5/14 studies), positive (3/14 studies) or no (6/14 studies) relation with RTIs. The association between wind and solar radiation on infections was inconclusive. Population density was positively associated with RTIs (14/15 studies).
Conclusions: Our review shows that exposure to low temperature increases the occurrence of RTIs in urban areas, and where also high population density increases the infection risk. The study highlights the need to further assess the relationship between built environment characteristics, weather, and RTIs.
背景:天气可以独立地影响城市地区呼吸道感染(RTIs)的发生。城市的建筑环境可能会进一步改变暴露于天气的情况,从而改变呼吸道感染的风险,但它们对感染的综合影响尚不清楚。目的:我们的目的是综合天气对城市地区rti影响的证据,并检查城市建筑环境是否与天气和rti相关。方法:按照PRISMA指南,于2022年8月9日对Scopus、PubMed和Web of Science数据库进行系统检索。通过筛选5,789篇文章和查阅相关研究的参考文献表,根据预先确定的标准将研究纳入综述。使用AXIS评估工具评估研究的质量,并通过叙事综合分析结果。结果:本综述纳入了21项关注COVID-19和流感传播的符合条件的研究。所有的研究都是设计为基于登记的生态学研究。低温(11/19项研究)通常与RTI风险增加相关。湿度与RTIs呈负相关(5/14)、正相关(3/14)或无相关(6/14)。风和太阳辐射与感染之间的关系尚无定论。人口密度与RTIs呈正相关(14/15项研究)。结论:低温暴露增加了城市地区RTIs的发生,人口密度高也增加了感染风险。该研究强调需要进一步评估建筑环境特征、天气和rti之间的关系。
期刊介绍:
Frontiers in Public Health is a multidisciplinary open-access journal which publishes rigorously peer-reviewed research and is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians, policy makers and the public worldwide. The journal aims at overcoming current fragmentation in research and publication, promoting consistency in pursuing relevant scientific themes, and supporting finding dissemination and translation into practice.
Frontiers in Public Health is organized into Specialty Sections that cover different areas of research in the field. Please refer to the author guidelines for details on article types and the submission process.
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