A commonly used pesticide may alter the development of the brain’s dopamine system, responsible for emotional expression and cognitive function, and increase the risk of attention deficit hyperactivity disorder in children, according to a new Rutgers study.
“Although we can’t change genetic susceptibility to ADHD, there may be modifiable environmental factors, including exposures to pesticides that we should be examining in more detail.”
Pyrethroid Pesticides Persisting Pathology
Attention deficit hyperactivity disorder most often affects children, with an estimated 11 percent of children between the ages of 4-17- about 6.4 million — diagnosed as of 2011. Boys are three to four times more likely to be diagnosed than girls.
While early symptoms, including an inability to sit still, pay attention and follow directions, begin between the ages of 3 to 6, diagnosis is usually made after the child starts attending school full time.
Importantly, in this study, the male mice were affected more than the female mice, similar to what is observed in children with ADHD. The ADHD-like behaviors persisted in the mice through adulthood, even though the pesticide, considered to be less toxic and used on golf courses, in the home, and on gardens, lawns and vegetable crops, was no longer detected in their system.
There is strong scientific evidence that genetics plays a role in susceptibility to the disorder, but no specific gene has been found that causes ADHD and scientists believe that environmental factors may also contribute to the development of the behavioral condition.
Young Children and Pregnant Women More Susceptible
Researchers asked parents whether a physician had ever diagnosed their child with ADHD and cross-referenced each child’s prescription drug history to determine if any of the most common ADHD medications had been prescribed. Children with higher pyrethroid pesticide metabolite levels in their urine were more than twice as likely to be diagnosed with ADHD.
Young children and pregnant women may be more susceptible to pesticide exposure because their bodies do not metabolize the chemicals as quickly. This is why, Richardson says, human studies need to be conducted to determine how exposure affects the developing fetus and young children.
“We need to make sure these pesticides are being used correctly and not unduly expose those who may be at a higher risk,” Richardson says.