“Previous studies have shown that dietary changes, particularly the addition of antioxidants, can blunt the adverse effects of exposure to high levels of air pollution over short time periods,” said Chris C. Lim, MS, a doctoral student at the NYU School of Medicine. “What we did not know was whether diet can influence the association between long-term air pollution exposure and health effects.”
Rich in antioxidants, the Mediterranean diet favors fruits, vegetables, whole grains, legumes, olive oils, fish and poultry over red meat and processed foods. Antioxidants are molecules that disarm oxidized and highly reactive molecules, or free radicals, that are known to cause cell and tissue damage.
The researchers analyzed data from the National Institutes of Health (NIH)-American Association of Retired Persons (AARP) Diet and Health Study. Over 17 years, the study followed 548,699 people (average age 62 at enrollment) from 6 states–California, North Carolina, New Jersey, Florida, Louisiana and Pennsylvania–and two cities–Atlanta and Detroit. During that time, 126,835 people in the study group died.
The researchers created five groups of participants based on their level of adherence to a Mediterranean diet and linked participants to estimates of long-term exposure to air pollution matter (PM2.5), nitrous oxide (NO2) and ozone air pollution (O3) based on census tract information.
When comparing those least and most adherent to a Mediterranean diet, the study found that:
Deaths from all causes increased by 5 percent for every 10 parts per billion (ppb) increase in long-term average NO2 exposure in those least adherent, compared to 2 percent among the most adherent.
Cardiovascular disease deaths increased by 17 percent for every 10 micrograms per cubic meter (μg/m3) increase in long-term average PM2.5 exposure in those least adherent, compared to 5 percent among the most adherent.
Cardiovascular disease deaths increased by 10 percent for every 10 ppb increase in NO2. exposure in those least adherent, compared to 2 percent among the most adherent.
Heart attack deaths increased by 20 percent for every 10 μg/m3 increase in PM2.5 exposure in those least adherent, compared to 5 percent among the most adherent.
Heart attack deaths increased by 12 percent for every single ppb increase in NO2 exposure in those least adherent, compared to 4 percent among the most adherent.
Adherence to a Mediterranean diet did not appear, however, to protect against the harmful effects of long-term exposure to O3. The diet did not reduce deaths from all causes, heart attack or other cardiovascular diseases associated with O3 exposure.
“Given the benefits we found of a diet high in anti-oxidants, our results are consistent with the hypothesis that particle air pollution caused by fossil fuel combustion adversely affects health by inducing oxidative stress and inflammation,” said senior study author George Thurston, ScD, director of the Program in Exposure Assessment and Human Health Effects at the Department of Environmental Medicine, NYU School of Medicine. “On the other hand, the ozone effect was not significantly blunted by a Mediterranean diet, so ozone apparently affects cardiac health through a different mechanism.”
With about one-fourth of the study population living where air pollution levels were 10 μg/m3 or more above the lowest exposure, he added, “adoption of a Mediterranean diet has the potential to reduce the effects of air pollution in a substantial population in the United States.”
Study limitations include only having dietary information from the point when participants enrolled in the study and enrolling a higher percentage of white and well-educated Americans than are represented in the U.S. population as a whole.
Source: American Thoracic Society
Meeting: ATS 2018 International Conference