Lower COVID-19 mortality in Italian forested areas suggests immunoprotection by Mediterranean plants

Roviello, Valentina; Roviello, Giovanni N.

doi:10.1007/s10311-020-01063-0

Cited by 75 publications

(73 citation statements)

References 91 publications

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“…Air pollution also acts as the route for much other secondary diseases and associated deaths (Walker 2020). Lower COVID-19 mortality in forested areas reinforces the influence of air pollution and suggests immunoprotection by Mediterranean plants (Roviello and Roviello 2020). Death rates under air pollution-related diseases and associated complications are at least 100-folds more in poor countries in comparison to the countries with high income.…”

Section: Air Pollution and Covid-19 Severitymentioning

confidence: 94%

Air pollution by NO2 and PM2.5 explains COVID-19 infection severity by overexpression of angiotensin-converting enzyme 2 in respiratory cells: a review

2020

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Many major cities that witnessed heavy air pollution by nitrogen dioxide (NO 2) and particulate matter (PM) have experienced a high rate of infection and severity of the coronavirus disease pandemic (COVID-19). This phenomenon could be explained by the overexpression of the angiotensin converting enzyme 2 (ACE-2) on epithelial cell surfaces of the respiratory tract. Indeed, ACE-2 is a receptor for coronaviruses including the severe acute respiratory syndrome coronavirus 1 and 2 (SARS-CoV), and ACE-2 is overexpressed under chronic exposure to air pollution such as NO 2 and PM 2.5. In this review, we explain that ACE-2 acts as the sole receptor for the attachment of the SARS-CoV-2 via its spike protein. The fact that respiratory and vascular epithelial cells express ACE-2 has been previously observed during the 2003 epidemic of the SARS-CoV-1 in China, and during the 2012 Middle East respiratory syndrome in Saudi Arabia. High ACE-2 expression in respiratory epithelial cells under air pollution explains the positive correlation between the severity in COVID-19 patients and elevated air pollution, notably high NO 2 and PM 2.5 levels. Specific areas in India, China, Italy, Russia, Chile and Qatar that experience heavy air pollution also show high rates of COVID-19 infection and severity. Overall, we demonstrate a link between NO 2 emissions, PM 2.5 levels, ACE-2 expression and COVID-19 infection severity. Therefore, air pollution should be reduced in places where confirmed cases of COVID-19 are unexpectedly high.

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Section: Air Pollution and Covid-19 Severitymentioning

confidence: 94%

Air pollution by NO2 and PM2.5 explains COVID-19 infection severity by overexpression of angiotensin-converting enzyme 2 in respiratory cells: a review

2020

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“…Further, recent studies indicated that high concentrations of aerosol particles could significantly increase the susceptibility of COVID-19 infection and symptom aggravation in infected individuals (Accarino et al 2020 ; Fattorini et al 2020 ; Roviello et al 2020 ; Travaglio et al 2020 ). A known contributing factor is that airborne particles are capable of harboring pathogens by forming clusters with droplets and droplet nuclei and facilitate their long-distance transport (Alonso et al 2014 ; Zhao et al 2019 ).…”

Section: Transmission Of Covid-19 By Virus-laden Droplets and Indoormentioning

confidence: 99%

How human thermal plume influences near-human transport of respiratory droplets and airborne particles: a review

Sun

Han

2021

Environ Chem Lett

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With mounting evidence and notable cases of large clustered infections, airborne transmission via droplets and particles has been recently acknowledged as an effective mode of transmission for COVID-19. How droplets and aerosol particles disperse are being transported into the human breathing zone-the last few inches for airborne transmission to effectuate-remains a key question which has been widely overlooked. Human thermal plume refers to the constantly rising airflows around the boundary layer of human body due to persisting temperature gradients between the body surfaces and the ambient air. Ample evidence indicated that the thermal plume controls the dispersion and transport of aerosols in the human microenvironment. Given that in calm indoor environments most air inhaled by human comes from the boundary layer where thermal plume flows through constantly, the role of thermal plume needs to be scrutinized to predict the diffusion of droplets, aerosols and other airborne carriers of the novel coronavirus around the human body for prioritizing infection control strategies. Here, we assessed the potential influences of the thermal plume on the transmission of COVID-19 and other airborne pathogens by reviewing the most pertinent evidence and analyzing key variables in the formation of thermal plume in indoor environments, e.g., ambient temperature, human posture and type of clothing. Our reviewed evidence and data indicate that the human thermal plume should facilitate the airborne transmission of COVID-19 in enclosed spaces by elevating small droplets and airborne particles into the breathing zone from lower regions and ascending respiratory droplets from the sources into the upper atmosphere. By drawing attention to aerosol transport dynamics in the human microenvironment, these insights may be useful for understanding COVID-19 transmission in enclosed spaces, especially those intended for public use.

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“…Before scientists find a perfect cure for treating infections by the novel coronavirus, vaccinating the global population will be the keystone in the current battle against COVID-19 (Stern 2020;Williams et al 2020). The numerous challenges in the lab-to-jab process not only present a daunting task, but also provide an unprecedented opportunity to collaborating and finding innovative solutions, on a global scale and across different disciplines to increase the preparedness of our communities for future pandemics (Paital and Agrawal 2020;Roviello and Roviello 2020;Sharma et al 2020;Wang et al 2020d). Since epidemics and pandemics may emerge in a not too distant future, these experiences will become an important part of the legacy of the COVID-19 era.…”

Section: Mutationsmentioning

confidence: 99%

Who is running faster, the virus or the vaccine?

Han

Lichtfouse

2020

Environ Chem Lett

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Lower COVID-19 mortality in Italian forested areas suggests immunoprotection by Mediterranean plants

Cited by 75 publications

References 91 publications

Air pollution by NO2 and PM2.5 explains COVID-19 infection severity by overexpression of angiotensin-converting enzyme 2 in respiratory cells: a review

Air pollution by NO2 and PM2.5 explains COVID-19 infection severity by overexpression of angiotensin-converting enzyme 2 in respiratory cells: a review

How human thermal plume influences near-human transport of respiratory droplets and airborne particles: a review

Who is running faster, the virus or the vaccine?

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