Utilizing Environmental Protection Agency records of hazardous air pollutant concentrations, the researchers examined levels of air pollution in the year and location in which women lived when they gave birth to their children. These mothers were enrolled in the Nurses Health Study II, a large sample of female nurses that has been followed since 1989. To focus their investigation, the researchers studied air pollutants previously found to be associated with autism, such as metals and diesel particulate matter. Overall, they found positive associations between perinatal exposure to several air pollutants and autism, meaning the greater the concentration of these pollutants, the greater chance of a child having autism. They also showed that some of these associations were stronger for boys than for girls.
However, this highly publicized study on air pollution is not exactly a breath of fresh air. Several things reveal weaknesses in the design and interpretation of this study:
1. On Twitter, Forbes writer Emily Willingham, made an interesting point:
Air pollution may be related to autism, just as countless environmental factors are, but it clearly isn’t a major player in its etiology, or causation (as much as I hate to use that word). For more of Emily’s thoughts on the autism/air pollution relationship, see this insightful post about a previous study.
2. While the Nurses Health Study provided a large sample, there is a significant confound with only studying children born to nurses. In an Autism Research paper, Gayle Windham and colleagues demonstrate a relationship between maternal occupational exposure to chemicals, as well as other potential toxins, and autism. Particularly, maternal exposure to disinfectants, as can be seen in nurses and other medical professionals, seemed to be related to autism. While this finding doesn’t negate the air pollution finding, it certainly complicates the picture.
3. The children in the autism group in this study were noted as having autism, Asperger’s and PDD-NOS, or, as was explained more vaguely, “may have been on the autism spectrum.” Including multiple subtypes of autism in a study sample is common, but, again, it provides another confound, especially considering the subtype-specific findings related to smoking during pregnancy, which I discuss in this post.
4. Regarding the researchers’ interpretation of these findings, there was much to be desired. Yes, an association between air pollutants and autism was demonstrated. But why or how? In other words, what potential genetic or developmental underlying mechanisms are set into motion by air pollution exposure? For now this is just a correlational, not causational, finding. Simply stating the supposed existence of an association doesn’t provide many answers.
While an interesting concept, the autism and air pollution “link” needs further exploration, and, hopefully, a more reserved reception as future studies are published.
[This post was originally published at my previous blog, Neurolore.]