Prenatal exposure to a ubiquitous household chemical called butylbenzyl phthalate (BBzP) can increase a child’s risk for developing eczema, according to research conducted at the Columbia Center for Children’s Environmental Health at the Mailman School of Public Health.
Widely used in vinyl flooring, artificial leather and other materials, BBzB can be slowly released into air in homes.
Details are published in the advance online edition of Environmental Health Perspectives, a journal of the National Institute of Environmental Health Sciences.
Eczema, which is characterized by dry, itchy red skin on the face, scalp, or extremities, is common in early childhood. “While hereditary factors, allergens, and exposure to tobacco smoke are known to contribute to the condition, our study is the first to show that prenatal exposure to BBzB is a risk factor,” says Allan C. Just, PhD, first author on the Mailman School study and currently a postdoctoral researcher at the Harvard School of Public Health.
The study looked at 407 nonsmoking African-American and Dominican women and their children in New York City. Exposure to BBzB was measured through a urine test during the third trimester of pregnancy. Following birth, the mothers were asked if their child had been diagnosed with eczema. The result: onset of eczema by age 2 was 52 percent more likely in children whose mothers had been exposed to higher concentrations of BBzP, compared with those whose mothers had been exposed to lower concentrations. All but one of the women in the study showed some level of exposure to the chemical.
How BBzP might induce eczema remains murky. To explore that question, the researchers looked at allergies as a possible mechanism. Children were tested for three common indoor allergens: cockroaches, dust mites, and mice, as well as for total IgE, a biomarker for an immune response to all allergens. But they found no evidence of a link between BBzP exposure and allergy.
“We know allergies are a factor with some childhood eczema, but our data suggest that is not the case when BBzP is involved,” says senior author Rachel Miller, MD, Director of the Allergy and Immunology fellowship program and Associate Professor of Medicine (in Pediatrics) and Environmental Health Sciences, NewYork-Presbyterian Hospital/Columbia University Medical Center; and a Co-Deputy Director of the Columbia Center for Children’s Environmental Health. “However, these are important findings, given that eczema is a common and uncomfortable disease of early childhood.”
The researchers also found that while African-American mothers in the study were twice as likely as their Dominican-American counterparts to report that their child had been diagnosed with eczema, both groups had a similar association between BBzP exposure and the disease.
Previous research by study co-author Robin M. Whyatt, DrPH, Professor of Clinical Environmental Health Sciences and Co-Deputy Director of the Columbia Center for Children’s Environmental Health, found that exposure to BBzP and other phthalates was shown to delay motor skill development in young children and to increase risk for behavioral problems. Phthalates are also known to disrupt the body’s endocrine system.
The research was supported by funding from the National Institute of Environmental Health Sciences (grants R01 ES014393, R01 ES013163, P01 ES09600, R01 ES008977 and P30 ES009089), the U.S. Environmental Protection Agency (grants R827027, RD832141, RD834509 and EPA STAR graduate fellowship (FP-91712001 for ACJ), the John and Wendy Neu Family Foundation, Blanchette Hooker Rockefeller Fund, New York Community Trust, Educational Foundation of America, and Millstream Fund.
The authors declare no financial or other conflicts of interest.
Timothy S. Paul