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Nutr Neurosci. 2017 May;20(4):209-218. doi: 10.1080/1028415X.2015.1103437. Epub 2015 Nov 27.

The plausibility of maternal toxicant exposure and nutritional status as contributing factors to the risk of autism spectrum disorders.

Author information

1
a Departments of Nutrition and Environmental Toxicology , University of California Davis , Davis , CA , USA.

Abstract

Recent research suggests the maternal environment may be especially important for the risk of developing autism spectrum disorders (ASD). In particular maternal infections, micronutrient deficiencies, obesity, and toxicant exposures are likely to interact with genetic risk factors to disrupt fetal brain development.

OBJECTIVES:

The goal of this paper is to investigate the plausibility of maternal toxicant exposure and nutritional status as causal factors in the development of ASD.

METHODS:

This paper reviews current research investigating the hypothesis that maternal toxicant exposure and prenatal micronutrient intake are important modifiable risk factors for ASD.

RESULTS:

Zinc, copper, iron, and vitamin B9 are identified as specific micronutrients with relevance to the etiology of ASD. Specific toxicants induce a maternal inflammatory response leading to fetal micronutrient deficiencies that disrupt early brain development. Importantly, maternal micronutrient supplementation is associated with reduced risk of ASD. Furthermore, animal studies show that micronutrient supplementation can prevent the teratogenicity and developmental neurotoxicity of specific toxicants.

DISCUSSION:

These findings lead to the hypothesis that maternal infection, obesity, and toxicant exposures (e.g. valproic acid, endocrine disrupting plasticizers, ethanol, and heavy metals) are all environmental risk factors for ASD that lead to fetal micronutrient deficiencies resulting from a maternal inflammatory response. It could be possible to use markers of inflammation and micronutrient status to identify women that would benefit from micronutrient supplementation or dietary interventions to reduce the risk of ASD. However, more research is needed to demonstrate a causal role of fetal micronutrient deficiencies and clarify the underlying mechanisms that contribute to ASD.

KEYWORDS:

ASD; Developmental neurotoxicity; Inflammation; Maternal nutrition; Micronutrients; Risk factor

PMID:
26613405
DOI:
10.1080/1028415X.2015.1103437
[Indexed for MEDLINE]

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