The Research Brief is a short take about interesting academic work.
Table of Contents
The big idea
People who breathe polluted air experience changes within the brain regions that control emotions, and as a result, they may be more likely to develop anxiety and depression than those who breathe cleaner air. These are the key findings of a systematic review that my colleagues and I recently published in the journal NeuroToxicology.
Our interdisciplinary team reviewed more than 100 research articles from both animal and human studies that focused on the effects of outdoor air pollution on mental health and regions of the brain that regulate emotions. The three main brain regions we focused on were the hippocampus, amygdala and the prefrontal cortex.
In our analysis, 73% of the studies reported higher mental health symptoms and behaviors in humans and animals, such as rats, that were exposed to higher than average levels of air pollution. Some exposures that led to negative effects occurred in air pollution ranges that are currently considered “safe” by the Environmental Protection Agency’s standards. In addition, we discovered that 95% of studies examining brain effects found significant physical and functional changes within the emotion-regulation brain regions in those exposed to increased levels of air pollution.
Most of these studies found that exposure to elevated levels of air pollution is associated with increased inflammation and changes to the regulation of neurotransmitters, which act as the brain’s chemical messengers.
Why it matters
Research into the physical health effects associated with air pollution exposure, such as asthma and respiratory issues, have been well documented for decades.
But only over the last 10 years or so have researchers begun to understand how air pollution can affect the brain. Studies have shown that small air pollutants, such as ultrafine particles from vehicle exhaust, can affect the brain either directly, by traveling through the nose and into the brain, or indirectly, by causing inflammation and altered immune responses in the body that can then cross into the brain.
At the same time, researchers are increasingly documenting the association between air pollution and its negative effects on mental health.
For this reason, more research into the health effects of air pollution exposure that goes beyond respiratory health outcomes into the realm of biological psychiatry is badly needed. For instance, the neurobiological mechanisms through which air pollution increases risk for mental health symptoms are still poorly understood.
What still isn’t known
In addition to our primary findings, our team also identified some notable gaps within the research that need to be addressed in order to paint a fuller picture of the relationship between air pollution and brain health.
Relatively few studies examined the effects of air pollution exposure during early life, such as infancy and toddlerhood, and in childhood and adolescence. This is especially concerning given that the brain continues to develop until young adulthood and therefore may be particularly susceptible to the effects of air pollution.
We also found that within the studies investigating air pollution effects on the brain, only 10 were conducted in humans. While research on animals has extensively
shown that air pollution can cause a host of changes within the animal brain, the research on how air pollution affects the human brain is much more limited. What’s more, most of the existing brain studies in humans have focused on physical changes, such as differences in overall brain size. More research is needed that relies on a technique called functional brain imaging, which could enable researchers like us to detect subtle or smaller changes that may occur before physical changes.
In the future, our team plans to use brain imaging methods to study how air pollution increases the risk of anxiety during adolescence. We plan to use a variety of techniques, including personal air monitors that children can wear as they go about their day, allowing us to more accurately assess their exposure.
Clara G. Zundel does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations beyond their academic appointment.