Synergistic or Antagonistic Health Effects of Long- and Short-Term Exposure to Ambient NO(2) and PM(2.5): A Review

Studies on adverse health effects associated with air pollution mostly focus on individual pollutants. However, the air is a complex medium, and thus epidemiological studies face many challenges and limitations in the multipollutant approach. NO(2) and PM(2.5) have been selected as both originating from combustion processes and are considered to be the main pollutants associated with traffic; moreover, both elicit oxidative stress responses. An answer to the question of whether synergistic or antagonistic health effects of combined pollutants are demonstrated by pollutants monitored in ambient air is not explicit. Among the analyzed studies, only a few revealed statistical significance. Exposure to a single pollutant (PM(2.5) or NO(2)) was mostly associated with a small increase in non-accidental mortality (HR:1.01–1.03). PM(2.5) increase of <10 µg/m(3) adjusted for NO(2) as well as NO(2) adjusted for PM(2.5) resulted in a slightly lower health risk than a single pollutant. In the case of cardiovascular heart disease, mortality evoked by exposure to PM(2.5) or NO(2) adjusted for NO(2) and PM(2.5), respectively, revealed an antagonistic effect on health risk compared to the single pollutant. Both short- and long-term exposure to PM(2.5) or NO(2) adjusted for NO(2) and PM(2.5), respectively, revealed a synergistic effect appearing as higher mortality from respiratory diseases.