Can air pollution cause inflammation? Scientists are starting to unravel the connection.

Can air pollution cause inflammation? Scientists are starting to ...  National Geographic

Can air pollution cause inflammation? Scientists are starting to unravel the connection.

Air Quality and Inflammation: Understanding the Impact of Air Pollution on Health

Air quality has long been a concern in South Philadelphia, where an oil refinery operated for more than 150 years before an explosion set it on fire in 2019.

The Impact of Air Pollution on Health

Today, many people in the densely populated, low-income, high-minority neighborhood have asthma, cancer, cardiovascular disease, rheumatoid arthritis, diabetes, and other conditions, “all of which operate through an inflammatory path,” says Jane Clougherty, an environmental epidemiologist at Drexel University in Philadelphia, who is working on a study to monitor air quality during the disassembling of the refinery.

Chronic exposure to air pollution causes inflammation and raises the risk for a variety of health problems, according to a large and growing body of research. As more climate change-caused wildfires belch smoke and roads fill with ever more fossil-fuel-burning vehicles, scientists are starting to unravel the details of how breathing air filled with pollution impairs the immune system’s ability to regulate inflammation.

The research has implications for both health care and health policy, experts say, emphasizing the need for stronger regulations to reduce air pollution, clearer guidelines to protect people from exposures with alerts about when to wear masks or stay indoors, and more research to intervene in the harm caused by air pollution.

Understanding Air Pollution

Air pollution encompasses a range of gasses and particles of varying size and composition that can come from a variety of sources: cars and factories that burn fossil fuels like gas and oil, and natural phenomena such as wildfires, volcanoes, and sandstorms. Components of air pollution include sulfur dioxide, ozone, lead, and particulate matter that is categorized by size, including PM2.5 and PM10. Burning fossil fuels also emits toxic chemical substances. Regularly breathing in these pollutants can lead to health problems, according to many studies that have linked chronic exposure to air pollution with respiratory and cardiovascular diseases, neurological problems, cancers, and premature death.

Living with pollution can make people more vulnerable to infectious diseases, possibly including COVID-19. Multiple studies since 2020 have pointed to potentially higher rates of infection, complications and death from COVID in places with higher levels of air pollution, even when it was temporary. From March to December 2020, one analysis found, there were some 20,000 extra COVID infections and 750 extra deaths in parts of California, Oregon, and Washington States that experienced wildlife haze. Wildfires produce a lot of small particles, called PM2.5 because they act aerodynamically like particles with a diameter of 2.5 microns or less. (There are about 25,000 microns in an inch). Long-term exposure to even small amounts of PM2.5, another study found, was linked to an 8 percent increase in the risk of death from COVID.

The Relationship Between Air Pollution and Inflammation

Breathing in bad air activates inflammation. When a particle of pollution enters the body, the innate immune response kicks into gear, leading to the production of cytokines and other molecules that produce inflammation in order to fight off the invader. Viruses and other foreign invaders also cause inflammatory reactions, but unlike viruses, particles can also become physically lodged in the lungs, where they continue to induce the production of inflammatory molecules. Pollution can also deliver metals and other substances into the bloodstream, and those can have toxic effects.

While a one-time exposure that causes inflammation is a sign of the body doing what it’s supposed to do, it can still cause harm. Bigger concerns come from ongoing assaults. “Acute exposure is bad,” Clougherty says. “Pile them on top of each other, and it’s worse.”

Understanding Immune Dysregulation

Although studies have shown higher levels of inflammatory molecules circulating in the blood of people with long-term exposure to different kinds of air pollution, understanding the details has been complicated by the natural variation that happens in the immune system on a daily basis, Clougherty says. If someone is fighting a cold, didn’t sleep well, or is feeling particularly stressed, they are likely to have elevated levels of molecules used to mark inflammation, such as cytokines and C-reactive protein, or CRP.

To get a clearer look at the interaction between air pollution and inflammation without all the noise that comes from life’s fluctuations, Clougherty and colleagues took blood from a cohort of middle-aged and older people in the Pittsburgh area who’d had varying exposures to air pollution. In the lab, they were then able to show that the cells of people with prior long-term exposure to PM 2.5 and black carbon emissions produced higher levels of certain inflammatory molecules when the researchers stimulated an immune reaction. They elicited particularly strong responses from people who had long been breathing in particles containing lead, iron, manganese, and zinc—metals associated with steelmaking operations.

Those results suggest that the immune systems of people with chronic exposure to air pollution might be reacting with a dysregulated immune response when presented with a threat. That inflammatory response could, in turn, lead to heart and lung diseases and other problems. “What we might be seeing here is hyper-inflammation,” Clougherty says. “You want enough of it to fight what you need to fight without it going out of control.”

Affecting People Differently

The impact of air pollution on health is an equity issue, Clougherty adds. In the United States, people of color and low-income earners are more likely to live and work near highways and industrial areas, often because costs are lower. But levels of air pollution are higher. The same groups also experience higher rates of diseases like diabetes that exacerbate assaults on their immune systems, and they face systemic barriers against inflammation-lowering behaviors, like exercise, sleep, and a good diet.

Research Clougherty and colleagues conducted more than 15 years ago with hundreds of children in Boston found that adversity magnifies a documented link between traffic-related air pollution and asthma in kids. Among children living with the same levels of nitrogen dioxide—a gas emitted by the burning fossil-fuels—only those who had been exposed to violence had an uptick in asthma diagnoses, suggesting that their immune systems were compromised by the stress, making them more vulnerable to the effects of air pollution. She has since replicated the pattern in rats and is investigating how chronic stressors might worsen air pollution’s effects on other diseases, too.

Addressing issues like violence alongside efforts to reduce air pollution could work together to alleviate the health consequences of both, she says. “Reducing one or the other gives us more policy levers with which to be able to improve public health and well-being,” Clougherty says, “and addressing both would give us optimal benefit.”

Policy action is also needed to reduce the source of the problem, says Clougherty. She was

SDGs, Targets, and Indicators

  1. SDG 3: Good Health and Well-being

    • Target 3.9: By 2030, substantially reduce the number of deaths and illnesses from hazardous chemicals and air, water, and soil pollution and contamination.
    • Indicator 3.9.1: Mortality rate attributed to household and ambient air pollution.
  2. SDG 11: Sustainable Cities and Communities

    • Target 11.6: By 2030, reduce the adverse per capita environmental impact of cities, including by paying special attention to air quality and municipal and other waste management.
    • Indicator 11.6.2: Annual mean levels of fine particulate matter (e.g., PM2.5 and PM10) in cities (population-weighted).
  3. SDG 13: Climate Action

    • Target 13.2: Integrate climate change measures into national policies, strategies, and planning.
    • Indicator 13.2.1: Number of countries that have integrated mitigation, adaptation, impact reduction, and early warning measures into national policies, strategies, and planning.

Analysis

1. Which SDGs are addressed or connected to the issues highlighted in the article?

The issues highlighted in the article are connected to SDG 3 (Good Health and Well-being), SDG 11 (Sustainable Cities and Communities), and SDG 13 (Climate Action).

2. What specific targets under those SDGs can be identified based on the article’s content?

Based on the article’s content, the specific targets identified are:

– Target 3.9: By 2030, substantially reduce the number of deaths and illnesses from hazardous chemicals and air, water, and soil pollution and contamination.

– Target 11.6: By 2030, reduce the adverse per capita environmental impact of cities, including by paying special attention to air quality and municipal and other waste management.

– Target 13.2: Integrate climate change measures into national policies, strategies, and planning.

3. Are there any indicators mentioned or implied in the article that can be used to measure progress towards the identified targets?

Yes, there are indicators mentioned in the article that can be used to measure progress towards the identified targets:

– Indicator 3.9.1: Mortality rate attributed to household and ambient air pollution.

– Indicator 11.6.2: Annual mean levels of fine particulate matter (e.g., PM2.5 and PM10) in cities (population-weighted).

– Indicator 13.2.1: Number of countries that have integrated mitigation, adaptation, impact reduction, and early warning measures into national policies, strategies, and planning.

Table: SDGs, Targets, and Indicators

SDGs Targets Indicators
SDG 3: Good Health and Well-being Target 3.9: By 2030, substantially reduce the number of deaths and illnesses from hazardous chemicals and air, water, and soil pollution and contamination. Indicator 3.9.1: Mortality rate attributed to household and ambient air pollution.
SDG 11: Sustainable Cities and Communities Target 11.6: By 2030, reduce the adverse per capita environmental impact of cities, including by paying special attention to air quality and municipal and other waste management. Indicator 11.6.2: Annual mean levels of fine particulate matter (e.g., PM2.5 and PM10) in cities (population-weighted).
SDG 13: Climate Action Target 13.2: Integrate climate change measures into national policies, strategies, and planning. Indicator 13.2.1: Number of countries that have integrated mitigation, adaptation, impact reduction, and early warning measures into national policies, strategies, and planning.

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Source: nationalgeographic.com

 

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