The study was led by Cynthia Curl, an assistant professor in Boise State University’s School of Allied Health Sciences. She recently joined Boise State from the University of Washington.
Curl and her colleagues analyzed the dietary exposure of nearly 4,500 people from six U.S. cities to organophosphates (OPs), the most common insecticides used on conventionally grown produce in the United States. OP pesticides are linked to a number of detrimental health effects, particularly among agricultural workers who are regularly exposed to the chemicals.
Results showed that among individuals eating similar amounts of fruits and vegetables, those who reported eating organic produce had significantly lower OP pesticide exposures than those consuming conventionally grown produce. In addition, consuming those conventionally grown foods typically treated with more of these pesticides during production, including apples, nectarines and peaches, was associated with significantly higher levels of exposure.
“For most Americans, diet is the primary source of OP pesticide exposure,” said Curl “The study suggests that by eating organically grown versions of those foods highest in pesticide residues, we can make a measurable difference in the levels of pesticides in our bodies.”
This study included dietary data collected from participants in the Multi-Ethnic Study of Atherosclerosis, a large, multi-institutional project funded by the National Heart, Lung and Blood Institute that is investigating factors that influence the onset of cardiovascular disease.
The researchers were able to predict each participant’s exposure to OP pesticides based on the amount and type of produce each participant typically ate and the U.S. Department of Agriculture’s measurements of pesticide residue levels on those foods. The researchers then compared these predictions to pesticide metabolite levels measured in urine samples from a subset of 720 of these people.
While Curl’s study is not the first to link organic produce with reduced pesticide exposure, the method she used may have significant implications for future research. By combining self-reported information on typical food consumption with USDA measurements, researchers will be able to conduct research on the relationship between dietary pesticide exposure and health outcomes in bigger populations, without needing to measure urinary metabolites.
“If we can predict pesticide exposure using dietary questionnaire data, then we may be able to understand the potential health effects of dietary exposure to pesticides without having to collect biological samples from people,” Curl said. “That will allow research on organic food to be both less expensive and less invasive.”
“The next step is to use these exposure predictions to examine the relationship between dietary exposure to pesticides and health outcomes, including neurological and cognitive endpoints. We’ll be able to do that in this same population of nearly 4,500 people,” she said.
One way people can reduce their pesticide exposure, said Curl, is to eat organic versions of those foods that are listed on the Environmental Working Group’s “Dirty Dozen” list, which ranks fruits and vegetables according to pesticide residue level.
Co-authors of the published study, “Estimating Pesticide Exposure from Dietary Intake and Organic Food Choices in the Multi-Ethnic Study of Atherosclerosis (MESA),” are Shirley Beresford, Richard Fenske, Annette Fitzpatrick and Joel Kaufman (University of Washington), Chensheng Lu (Harvard University) and Jennifer Nettleton (University of Texas).
This research was supported by the Environmental Protection Agency’s Science to Achieve Results (STAR) Fellowship Program, the National Heart, Lung and Blood Institute, the National Institute of Environmental Health Sciences and the Department of Environmental and Occupational Health Sciences in the University of Washington School of Public Health.
Journal Link: Environmental Health Perspectives, Feb. 5, 2015