Summary: Children whose diet included more organic foods scored better on tests of fluid intelligence and working memory, a new study reveals.
A study analysing the association between a wide variety of prenatal and childhood exposures and neuropsychological development in school-age children has found that organic food intake is associated with better scores on tests of fluid intelligence (ability to solve novel reasoning problems) and working memory (ability of the brain to retain new information while it is needed in the short term).
The study, published in Environmental Pollution, was conceived and designed by researchers at the Barcelona Institute for Global Health (ISGlobal)–a centre supported by the “la Caixa” Foundation–and the Pere Virgili Health Research Institute (IISPV-CERCA).
The explanation for this association may be that “healthy diets, including organic diets, are richer than fast food diets in nutrients necessary for the brain, such as fatty acids, vitamins and antioxidants, which together may enhance cognitive function in childhood,” commented lead author Jordi Júlvez, a researcher at IISPV-CERCA who works closely with ISGlobal.
The study also found that fast food intake, house crowding and environmental tobacco smoke during childhood were associated with lower fluid intelligence scores. In addition, exposure to fine particulate matter (PM2.5) indoors was associated with lower working memory scores.
The study, titled “Early life multiple exposures and child cognitive function: A multi-centric birth cohort study in six European countries”, used data on 1,298 children aged 6-11 years from six European country-specific birth cohorts (United Kingdom, France, Spain, Greece, Lithuania and Norway).
The researchers looked at 87 environmental factors the children were exposed to in utero (air pollution, traffic, noise, various chemicals and lifestyle factors) and another 122 factors they were exposed to during childhood.
A Pioneering Study
The aim of the study was to analyse the influence of these exposures on the development and maturation of the human brain, since during childhood the brain is not yet fully developed for efficient defence against environmental chemicals and is particularly sensitive to toxicity, even at low levels that do not necessarily pose a risk to a healthy mature brain.
The originality of the study lies in its use of an exposome approach, i.e. the fact that it takes into account the totality of exposures rather than focusing on a single one. This approach aims to achieve a better understanding of the complexity of multiple environmental exposures and their simultaneous effect on children’s neurodevelopment.
Another strength of the study, which analyses cohorts from six European countries, is its diversity, although this factor also poses the additional challenge of cultural differences, which can influence exposure levels and cognitive outcomes.
The study found that the main determinants of fluid intelligence and working memory in children are organic diet, fast food diet, crowdedness of the family home, indoor air pollution and tobacco smoke.
To date, there has been little research on the relationship between type of diet and cognitive function, but fast food intake has been associated with lower academic development success and some studies have also reported positive associations between organic diets and executive function scores.
“In our study,” explained Júlvez, “we found better scores in fluid intelligence and working memory with higher organic food intake and lower fast food intake.”
In contrast, exposure to tobacco smoke and indoor PM2.5 during childhood may negatively affect cognitive function by enhancing pro-inflammatory reactions in the brain. Still, according to Júlvez, it is worth bearing in mind that “the number of people living together in a home is often an indicator of the family’s economic status, and that contexts of poverty favour less healthy lifestyles, which in turn may affect children’s cognitive test scores”.
Some Surprising Findings
The study also found some unexpected associations, which could be explained by confounding and reverse causality. For example, a positive association was found between childhood exposure to perfluorooctane sulfonic acid (PFOS) and cognitive function, even though PFOS is considered an endocrine disruptor that may alter thyroid function and negatively influence cognitive development.
The study forms part of the large European project Human Early-Life Exposome (HELIX), as does another recent paper that used the same exposome and the same participants but looked at symptoms of attention deficit hyperactivity disorder (ADHD) and childhood behavioural problems.
“We observed that several prenatal environmental pollutants (indoor air pollution and tobacco smoke) and lifestyle habits during childhood (diet, sleep and family social capital) were associated with behavioural problems in children,” explained Martine Vrijheid, last author of the study and head of ISGlobal’s Childhood and Environment programme.
“One of the strengths of this study on cognition and the earlier study on behavioural problems is that we systematically analysed a much wider range of exposure biomarkers in blood and urine to determine the internal levels in the model and that we analysed both prenatal and childhood exposure variables,” concluded Vrijheid.
Étude des déterminants pré- et postnatals du développement et de la santé de l’enfant (EDEN), France
Infancia y Medio Ambiente (INMA), Spain
Kaunus Cohort (KANC), Lithuania
Norwegian Mother, Father and Child Cohort Study (MoBa), Norway
Mother-Child Cohort in Crete (Rhea), Greece
About this diet and cognition research news
Source:ISGLOBAL Contact: Yvette Moya-Angeler – ISGLOBAL Image: The image is in the public domain
Original Research: Open access. “Early life multiple exposures and child cognitive function: A multi-centric birth cohort study in six European countries” by Jordi Julvez, Mónica López-Vicente, Charline Warembourg, Lea Maitre, Claire Philippat, Kristine B. Gützkow, Monica Guxens, Jorunn Evandt, Sandra Andrusaityte, Miguel Burgaleta, Maribel Casas, Leda Chatzi, Montserrat de Castro, David Donaire-González, Regina Graulevičien, Carles Hernandez-Ferrer, Barbara Heude, Rosie Mceachan, Mark Mon-Williams, Mark Nieuwenhuijsen, Oliver Robinson, Amrit K. Sakhi, Nuria Sebastian-Galles, Remy Slama, Jordi Sunyer, Ibon Tamayo-Uria, Cathrine Thomsen, Jose Urquiza, Marina Vafeiadi, John Wright, Xavier Basagaña, Martine Vrijheid. Environmental Pollution
Early life multiple exposures and child cognitive function: A multi-centric birth cohort study in six European countries
Urban environments are characterised by many factors that may influence children’s lifestyle and increase the risk of childhood obesity, but multiple urban exposures have scarcely been studied.
We evaluated the association between multiple urban exposures and childhood obesity outcomes and weight-related behaviours.
We conducted a cross-sectional study including 2213 children aged 9–12 years in Sabadell, Spain. We estimated ambient air pollution, green spaces, built and food environment, road traffic and road traffic noise at residential addresses through a total of 28 exposure variables in various buffers. Childhood obesity outcomes included body mass index (BMI), waist circumference and body fat. Weight-related behaviours included diet (fast food and sugar-sweetened beverage consumption), physical activity, sedentary behaviour, sleep duration and well-being. Associations between exposures (urban environment) and outcomes (obesity and behaviours) were estimated in single and multiple-exposure regression models and in a hierarchical clustering on principal components (HCPC) analysis.
Forty percent of children were overweight or obese. In single exposure models, very few associations were observed between the urban exposures and obesity outcomes or weight-related behaviours after correction for multiple testing. In multiple exposure models, PMcoarse, denser unhealthy food environment and land use mix were statistically significant associated with childhood obesity outcomes (e.g 17.7 facilities/km2 increase of unhealthy food environment (OR overweight/obesity status) = 1.20 [95% CI: 1.01; 1.44]). Cluster analysis identified 5 clusters of urban exposures. Compared to the most neutral cluster, the cluster with high air pollution, road traffic, and road noise levels was associated with a higher BMI and higher odds of overweight and obesity (β (zBMI) = 0.17, [95% CI: 0.01, 0.17]; OR (overweight/obesity) = 1.36, [95% CI: 0.99, 1.85]); the clusters were not associated with the weight-related behaviours.
This systematic study of many exposures in the urban environment suggests that an exposure pattern characterised by higher levels of ambient air pollution, road traffic and road traffic noise is associated with increased childhood obesity risk and that PMcoarse, land use mix and food environment are separately associated with obesity risk. These findings require follow-up in longitudinal studies and different settings.