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Analysis of the Association Among Air Pollutants, Allergenic Pollen, and Respiratory Virus Infection of Children in Guri, Korea During Recent 5 Yearsopen access

Authors
Choi, Young-JinLee, Kyung SukLee, Young-SeopKim, Kyu RangOh, Jae-Won
Issue Date
May-2022
Publisher
KOREAN ACAD ASTHMA ALLERGY & CLINICAL IMMUNOLOGY
Keywords
Respiratory viral infection; respiratory symptom; air pollutant; pollen; children
Citation
ALLERGY ASTHMA & IMMUNOLOGY RESEARCH, v.14, no.3, pp 289 - 299
Pages
11
Indexed
SCIE
SCOPUS
KCI
Journal Title
ALLERGY ASTHMA & IMMUNOLOGY RESEARCH
Volume
14
Number
3
Start Page
289
End Page
299
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/203086
DOI
10.4168/aair.2022.14.3.289
ISSN
2092-7355
2092-7363
Abstract
Purpose: Concerns about the spread of infectious diseases have increased due to the coronavirus disease pandemic. Knowing the factors that exacerbate or increase the contagiousness of a virus could be a key to pandemic prevention. Therefore, we investigated whether the pandemic potential of infectious diseases correlates with the concentration of atmospheric substances. We also investigated whether environmental deterioration causes an increase in viral infections. Methods: Pediatric patients (0-18 years old; n = 6,223) were recruited from those hospitalized for aggravated respiratory symptoms at Hanyang University Guri Hospital between January 1, 2015 and December 31, 2019. The number of viral infections was defined as the total number of virus-infected patients hospitalized for respiratory symptoms. We analyzed the association between the number of viral infections/week and the average concentrations of atmospheric substances including particulate matter (PM)10, PM2.5, O-3, NO2, CO, SO2, and allergenic pollen) for that week. The cross-correlation coefficient between the weekly measures of pollens and viral infections was checked to determine which time point had the most influence. The association of atmospheric substances in that time, with the number of viral infections/week was investigated using multiple linear regression analysis to identify factors with the greatest influence. Results: In spring the tree pollen average concentration one week earlier (t-1) had the greatest correlation with the average virus infection of a given week (t) (rho XY (h) =0.5210). The number of viral infections showed a statistically significant correlation with especially tree pollen concentration of 1 week prior (adj R-2 =0.2280). O-3 concentration was correlated to the number of viral infections within that week (adj R-2 =0.2552) in spring, and weed pollen and CO concentration correlated (adj R-2 =0.1327) in autumn. Conclusions: Seasonal co-exposure to air pollutants and allergenic pollens may enhance respiratory viral infection susceptibility in children. Therefore, reducing the concentrations of air pollutants and pollens may help prevent future epidemics.
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