Author: Ghanim, Abdulnoor A. J
Title: Analyzing the severity of coronavirus infections in relation to air pollution: evidence-based study from Saudi Arabia Cord-id: 33t27tg6 Document date: 2021_8_27
ID: 33t27tg6
Snippet: COVID-19 is one of the major pandemics in history. It has caused various health problems to majority of countries in the world. Several researchers have examined and developed studies regarding concerns on air pollution being considered a major risk factor causing respiratory infections. Such infections are carried out by microorganisms, thus further affecting the immune system. The present study involves the relationship between air pollutants and the total COVID-19 infections along with the es
Document: COVID-19 is one of the major pandemics in history. It has caused various health problems to majority of countries in the world. Several researchers have examined and developed studies regarding concerns on air pollution being considered a major risk factor causing respiratory infections. Such infections are carried out by microorganisms, thus further affecting the immune system. The present study involves the relationship between air pollutants and the total COVID-19 infections along with the estimation of death rates in several regions of Saudi Arabia. The major goal of this study comprises the analysis of the relationship between air pollutants concentration, such as PM10, NO(2), CO, SO(2), and O(3), and the widespread outbreak of COVID-19. This scenario involves the transmission, number of patients, critical cases, and death rates. Results show that the estimation of recorded COVID-19 cases was in the most polluted regions; the mortality rate and critical cases were also more distinct in these regions than in other regions in Saudi Arabia. The finding of this study demonstrates a positive correlation between the mean values of PM10, NO(2), CO, and SO(2) pollutants. The results represent the significant relationship between air pollution resulting from a high concentration of NO(2) and COVID-19 infections and deaths. In addition, a null hypothesis of the relation between other pollutants and COVID-19 infections cannot be rejected. The study also indicates a significant correlation between the means of NO(2) and CO and the total number of critical cases. Negative correlations are obtained between the mean of O(3) and the total number of cases, total deaths, and critical case per cumulative days. [Image: see text]
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