An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting

An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting

Abstract Background Several studies have been focusing on the potential role of atmospheric pollutants in the diffusion and impact on health of Covid-19. This study’s objective was to estimate the association between ≤10 μm diameter particulate matter (PM10) exposure and the likelihood of experienci...

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Main Authors: Valeria Pegoraro, Franca Heiman, Antonella Levante, Duccio Urbinati, Ilaria Peduto
Format: Article
Language:English
Published: BMC 2021-05-01
Series:BMC Public Health
Subjects:
Covid-19
Pneumonia
Air pollution
Particulate matter
Individual-level data
Primary-care
Online Access:https://doi.org/10.1186/s12889-021-10949-9
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spelling doaj-08c62952ac3749ed8e8cc264d290fd8d2021-05-16T11:03:43ZengBMCBMC Public Health1471-24582021-05-0121111110.1186/s12889-021-10949-9An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care settingValeria Pegoraro0Franca Heiman1Antonella Levante2Duccio Urbinati3Ilaria Peduto4IQVIA Solutions Italy S.r.l., RWSIQVIA Solutions Italy S.r.l., RWSIQVIA Solutions Italy S.r.l., RWSIQVIA Solutions Italy S.r.l., RWSIQVIA Solutions Italy S.r.l., RWSAbstract Background Several studies have been focusing on the potential role of atmospheric pollutants in the diffusion and impact on health of Covid-19. This study’s objective was to estimate the association between ≤10 μm diameter particulate matter (PM10) exposure and the likelihood of experiencing pneumonia due to Covid-19 using individual-level data in Italy. Methods Information on Covid-19 patients was retrieved from the Italian IQVIA® Longitudinal Patient Database (LPD), a computerized network of general practitioners (GPs) including anonymous data on patients’ consultations and treatments. All patients with a Covid-19 diagnosis during March 18th, 2020 – June 30th, 2020 were included in the study. The date of first Covid-19 registration was the starting point of the 3-month follow-up (Index Date). Patients were classified based on Covid-19-related pneumonia registrations on the Index date and/or during follow-up presence/absence. Each patient was assigned individual exposure by calculating average PM10 during the 30-day period preceding the Index Date, and according to GP’s office province. A multiple generalized linear mixed model, mixed-effects logistic regression, was used to assess the association between PM10 exposure tertiles and the likelihood of experiencing pneumonia. Results Among 6483 Covid-19 patients included, 1079 (16.6%) had a diagnosis of pneumonia. Pneumonia patients were older, more frequently men, more health-impaired, and had a higher individual-level exposure to PM10 during the month preceding Covid-19 diagnosis. The mixed-effects model showed that patients whose PM10 exposure level fell in the second tertile had a 30% higher likelihood of having pneumonia than that of first tertile patients, and the risk for those who were in the third tertile was almost doubled. Conclusion The consistent findings toward a positive association between PM10 levels and the likelihood of experiencing pneumonia due to Covid-19 make the implementation of new strategies to reduce air pollution more and more urgent.https://doi.org/10.1186/s12889-021-10949-9Covid-19PneumoniaAir pollutionParticulate matterIndividual-level dataPrimary-care
collection DOAJ
language English
format Article
sources DOAJ
author Valeria Pegoraro
Franca Heiman
Antonella Levante
Duccio Urbinati
Ilaria Peduto
spellingShingle Valeria Pegoraro
Franca Heiman
Antonella Levante
Duccio Urbinati
Ilaria Peduto
An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting
BMC Public Health
Covid-19
Pneumonia
Air pollution
Particulate matter
Individual-level data
Primary-care
author_facet Valeria Pegoraro
Franca Heiman
Antonella Levante
Duccio Urbinati
Ilaria Peduto
author_sort Valeria Pegoraro
title An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting
title_short An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting
title_full An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting
title_fullStr An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting
title_full_unstemmed An Italian individual-level data study investigating on the association between air pollution exposure and Covid-19 severity in primary-care setting
title_sort italian individual-level data study investigating on the association between air pollution exposure and covid-19 severity in primary-care setting
publisher BMC
series BMC Public Health
issn 1471-2458
publishDate 2021-05-01
description Abstract Background Several studies have been focusing on the potential role of atmospheric pollutants in the diffusion and impact on health of Covid-19. This study’s objective was to estimate the association between ≤10 μm diameter particulate matter (PM10) exposure and the likelihood of experiencing pneumonia due to Covid-19 using individual-level data in Italy. Methods Information on Covid-19 patients was retrieved from the Italian IQVIA® Longitudinal Patient Database (LPD), a computerized network of general practitioners (GPs) including anonymous data on patients’ consultations and treatments. All patients with a Covid-19 diagnosis during March 18th, 2020 – June 30th, 2020 were included in the study. The date of first Covid-19 registration was the starting point of the 3-month follow-up (Index Date). Patients were classified based on Covid-19-related pneumonia registrations on the Index date and/or during follow-up presence/absence. Each patient was assigned individual exposure by calculating average PM10 during the 30-day period preceding the Index Date, and according to GP’s office province. A multiple generalized linear mixed model, mixed-effects logistic regression, was used to assess the association between PM10 exposure tertiles and the likelihood of experiencing pneumonia. Results Among 6483 Covid-19 patients included, 1079 (16.6%) had a diagnosis of pneumonia. Pneumonia patients were older, more frequently men, more health-impaired, and had a higher individual-level exposure to PM10 during the month preceding Covid-19 diagnosis. The mixed-effects model showed that patients whose PM10 exposure level fell in the second tertile had a 30% higher likelihood of having pneumonia than that of first tertile patients, and the risk for those who were in the third tertile was almost doubled. Conclusion The consistent findings toward a positive association between PM10 levels and the likelihood of experiencing pneumonia due to Covid-19 make the implementation of new strategies to reduce air pollution more and more urgent.
topic Covid-19
Pneumonia
Air pollution
Particulate matter
Individual-level data
Primary-care
url https://doi.org/10.1186/s12889-021-10949-9
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