BACKGROUND: Endotoxins are stimulators of the immune system and, despite their potential to protect against allergy, have been associated with early wheezing and asthma morbidity. OBJECTIVE: To compare inner-city school endotoxin exposure with home endotoxin exposure in children with asthma. METHODS: Students with asthma were recruited from 12 urban elementary schools. Settled and airborne dust samples, linked to enrolled students, were collected from school classrooms, gymnasiums, and cafeterias twice during the academic year. For comparison, settled dust was collected once from the bedrooms of students with asthma. RESULTS: Two hundred twenty-nine school settled dust samples and 118 bedroom settled dust samples were collected and analyzed for endotoxin. The median endotoxin concentration for school samples was 13.4 EU/mg (range, 0.7-360.7 EU/mg) and for home samples was 7.0 EU/mg (range = LLOD-843.0 EU/mg). The median concentration within each individual school varied from 6.6 EU/mg to 24.0 EU/mg. One hundred four students with asthma had matched classroom and bedroom endotoxin exposure measurements performed in the same season and demonstrated significantly higher concentrations of endotoxin in the students' classrooms (mean log value, 1.13 vs 0.99, P = .04). The median of the classrooms was 12.5 EU/mg compared with their bedrooms, with a median of 7.0 EU/mg. Within the school environment, no significant difference was seen between the fall and spring samples (mean log value 1.14 vs 1.09; P = .35). CONCLUSION: Inner-city children with asthma were exposed to higher concentrations of endotoxin in their classrooms as compared with their bedrooms. Further studies are needed to evaluate school endotoxin exposure as a factor in asthma morbidity.
BACKGROUND: Endotoxins are stimulators of the immune system and, despite their potential to protect against allergy, have been associated with early wheezing and asthma morbidity. OBJECTIVE: To compare inner-city school endotoxin exposure with home endotoxin exposure in children with asthma. METHODS: Students with asthma were recruited from 12 urban elementary schools. Settled and airborne dust samples, linked to enrolled students, were collected from school classrooms, gymnasiums, and cafeterias twice during the academic year. For comparison, settled dust was collected once from the bedrooms of students with asthma. RESULTS: Two hundred twenty-nine school settled dust samples and 118 bedroom settled dust samples were collected and analyzed for endotoxin. The median endotoxin concentration for school samples was 13.4 EU/mg (range, 0.7-360.7 EU/mg) and for home samples was 7.0 EU/mg (range = LLOD-843.0 EU/mg). The median concentration within each individual school varied from 6.6 EU/mg to 24.0 EU/mg. One hundred four students with asthma had matched classroom and bedroom endotoxin exposure measurements performed in the same season and demonstrated significantly higher concentrations of endotoxin in the students' classrooms (mean log value, 1.13 vs 0.99, P = .04). The median of the classrooms was 12.5 EU/mg compared with their bedrooms, with a median of 7.0 EU/mg. Within the school environment, no significant difference was seen between the fall and spring samples (mean log value 1.14 vs 1.09; P = .35). CONCLUSION: Inner-city children with asthma were exposed to higher concentrations of endotoxin in their classrooms as compared with their bedrooms. Further studies are needed to evaluate school endotoxin exposure as a factor in asthma morbidity.
Authors: Joseph H Abraham; Patricia W Finn; Donald K Milton; Louise M Ryan; David L Perkins; Diane R Gold Journal: J Allergy Clin Immunol Date: 2005-08 Impact factor: 10.793
Authors: Meyer Kattan; Sally C Stearns; Ellen F Crain; James W Stout; Peter J Gergen; Richard Evans; Cynthia M Visness; Rebecca S Gruchalla; Wayne J Morgan; George T O'Connor; J Patrick Mastin; Herman E Mitchell Journal: J Allergy Clin Immunol Date: 2005-10-03 Impact factor: 10.793
Authors: Peter S Thorne; Katarina Kulhánková; Ming Yin; Richard Cohn; Samuel J Arbes; Darryl C Zeldin Journal: Am J Respir Crit Care Med Date: 2005-09-01 Impact factor: 21.405
Authors: Nora Horick; Edie Weller; Donald K Milton; Diane R Gold; Ruifeng Li; Donna Spiegelman Journal: Environ Health Perspect Date: 2006-01 Impact factor: 9.031
Authors: Samuel J Arbes; Michelle Sever; Ben Vaughn; Jigna Mehta; Jeffrey T Lynch; Herman Mitchell; Jane A Hoppin; Harvey L Spencer; Dale P Sandler; Darryl C Zeldin Journal: Environ Health Perspect Date: 2005-06 Impact factor: 9.031