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Air pollution during foetal life linked to brain abnormalities

A study performed in the Netherlands has linked exposure to residential air pollution during foetal life with brain abnormalities that may contribute to impaired cognitive function in school-age children. The study reports that the air pollution levels related to brain alterations were below those considered to be safe.

"We observed brain development effects in relationship to fine particles levels below the current EU limit," said lead author Dr Mònica Guxens, of Barcelona Institute for Global Health (ISGlobal), Spain, a centre supported by the "la Caixa" Foundation, and Erasmus University Medical Centre, the Netherlands. This finding adds to previous studies that have linked acceptable air pollution levels with other complications including cognitive decline and fetal growth development. "Therefore, we cannot warrant the safety of the current levels of air pollution in our cities," said Guxens.

Exposure to fine particles during foetal life was associated with a thinner outer layer of the brain, called the cortex, in several regions. The study showed that these brain abnormalities contribute in part to difficulty with inhibitory control – the ability to regulate self-control over temptations and impulsive behaviour – which is related to mental health problems such as addictive behaviour and attention-deficit/hyperactivity disorder.

The study used a population-based cohort in the Netherlands, which enrolled pregnant women and followed the children from foetal life onward. Guxens and colleagues assessed air pollution levels at home during the foetal life of 783 children. The data were collected by air pollution monitoring campaigns and included levels of nitrogen dioxide (a prominent air pollutant caused by traffic and cigarette smoking), coarse particles, and fine particles.

Brain imaging performed when the children were between 6 and 10 years old revealed abnormalities in the thickness of the brain cortex of the precuneus and rostral middle frontal region. Despite the relationship between these brain structure alterations and fine particle exposure, the average residential levels of fine particles in the study were well below the current acceptable limit set by the EU – only 0.5% of the pregnant women in the study were exposed to levels considered unsafe. The average residential levels of nitrogen dioxide were right at the safe limit.

"Air pollution is so obviously bad for lungs, heart, and other organs that most of us have never considered its effects on the developing brain. But perhaps we should have learned from studies of maternal smoking that inhaling toxins may have lasting effects on cognitive development," said Dr John Krystal.

The foetal brain is particularly vulnerable during pregnancy – it hasn't yet developed the mechanisms to protect against or remove environmental toxins. The findings of the study suggest that exposure to levels even below those considered safe could cause permanent brain damage.

"Although specific individual clinical implications of these findings cannot be quantified, based on other studies, the observed cognitive delays at early ages could have significant long-term consequences such as increased risk of mental health disorders and low academic achievement, in particular due to the ubiquity of the exposure," said Guxens.

Background: Air pollution exposure during fetal life has been related to impaired child neurodevelopment, but it is unclear if brain structural alterations underlie this association. The authors assessed whether air pollution exposure during fetal life alters brain morphology and whether these alterations mediate the association between air pollution exposure during fetal life and cognitive function in school-age children.
Methods: We used data from a population-based birth cohort set up in Rotterdam, The Netherlands (2002–2006). Residential levels of air pollution during the entire fetal period were calculated using land-use regression models. Structural neuroimaging and cognitive function were performed at 6 to 10 years of age (n = 783). Models were adjusted for several socioeconomic and lifestyle characteristics.
Results: Mean fine particle levels were 20.2 μg/m3 (range, 16.8–28.1 μg/m3). Children exposed to higher particulate matter levels during fetal life had thinner cortex in several brain regions of both hemispheres (e.g., cerebral cortex of the precuneus region in the right hemisphere was 0.045 mm thinner (95% confidence interval, 0.028–0.062) for each 5-μg/m3 increase in fine particles). The reduced cerebral cortex in precuneus and rostral middle frontal regions partially mediated the association between exposure to fine particles and impaired inhibitory control. Air pollution exposure was not associated with global brain volumes.
Conclusions: Exposure to fine particles during fetal life was related to child brain structural alterations of the cerebral cortex, and these alterations partially mediated the association between exposure to fine particles during fetal life and impaired child inhibitory control. Such cognitive impairment at early ages could have significant long-term consequences.

Mònica Guxens, Małgorzata J Lubczyńska, Ryan Muetzel, Albert Dalmau-Bueno, Vincent WV Jaddoe, Gerard Hoek, Aad van der Lugt, Frank C Verhulst, Tonya White, Bert Brunekreef, Henning Tiemeier, Hanan El Marroun

[link url=""]Elsevier material[/link]
[link url=""]Biological Psychology abstract[/link]

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