BACKGROUND: Extensive epidemiological studies have provided evidence of an association between elevated outdoor particulate air pollution and adverse health effects. However, while people typically spend majority of time indoors, there is limited knowledge on airborne indoor particles and on the correlation between the concentrations of indoor particles and health effects. Even insights into the influence of differently sized indoor particles on human health are still rare. OBJECTIVE: The association between differentially sized indoor air particles and the development of respiratory diseases was studied for three year aged children. METHODS: Short-term measurements of particle mass and number concentrations were carried out in children's rooms. Information on possible particle sources (smoking habits, type of heating, and traffic) and respiratory outcomes were obtained from questionnaires. Measured indoor particle concentrations were correlated with possible sources of indoor particles and with respiratory health impacts. RESULTS: Daily smoking, smoking more than 5 cigarettes per day at home and traffic density in front of the window of children's room were found to be related to indoor exposure by particles of different diameters. High indoor particle exposures were associated with an increased risk for the development of obstructive bronchitis and in some extent of non-obstructive bronchitis. The strongest impact was observed for the mass concentration of particles <1 μm and the number concentration of particles >0.5 μm. The risk increases still remain significant if tested for stability changing the number of adjustment variables or omitting randomly selected cases, respectively. CONCLUSION: Our results show significant associations between indoor particle concentrations and the risks for respiratory diseases in young children. The applied short-term measurements can help to assess the health risks of indoor particles with different sizes within epidemiological studies.
BACKGROUND: Extensive epidemiological studies have provided evidence of an association between elevated outdoor particulate air pollution and adverse health effects. However, while people typically spend majority of time indoors, there is limited knowledge on airborne indoor particles and on the correlation between the concentrations of indoor particles and health effects. Even insights into the influence of differently sized indoor particles on human health are still rare. OBJECTIVE: The association between differentially sized indoor air particles and the development of respiratory diseases was studied for three year aged children. METHODS: Short-term measurements of particle mass and number concentrations were carried out in children's rooms. Information on possible particle sources (smoking habits, type of heating, and traffic) and respiratory outcomes were obtained from questionnaires. Measured indoor particle concentrations were correlated with possible sources of indoor particles and with respiratory health impacts. RESULTS: Daily smoking, smoking more than 5 cigarettes per day at home and traffic density in front of the window of children's room were found to be related to indoor exposure by particles of different diameters. High indoor particle exposures were associated with an increased risk for the development of obstructive bronchitis and in some extent of non-obstructive bronchitis. The strongest impact was observed for the mass concentration of particles <1 μm and the number concentration of particles >0.5 μm. The risk increases still remain significant if tested for stability changing the number of adjustment variables or omitting randomly selected cases, respectively. CONCLUSION: Our results show significant associations between indoor particle concentrations and the risks for respiratory diseases in young children. The applied short-term measurements can help to assess the health risks of indoor particles with different sizes within epidemiological studies.
Authors: Jessica A Sagona; Stuart L Shalat; Zuocheng Wang; Maya Ramagopal; Kathleen Black; Marta Hernandez; Gediminas Mainelis Journal: J Expo Sci Environ Epidemiol Date: 2016-05-11 Impact factor: 5.563
Authors: Carolin Rösch; Dirk K Wissenbach; Martin von Bergen; Ulrich Franck; Manfred Wendisch; Uwe Schlink Journal: Environ Sci Pollut Res Int Date: 2015-05-14 Impact factor: 4.223
Authors: Marlene Cortez-Lugo; Matiana Ramírez-Aguilar; Rogelio Pérez-Padilla; Raúl Sansores-Martínez; Alejandra Ramírez-Venegas; Albino Barraza-Villarreal Journal: Int J Environ Res Public Health Date: 2015-08-28 Impact factor: 3.390