The role of marine omega-3 in human neurodevelopment, including Autism Spectrum Disorders and Attention-Deficit/Hyperactivity Disorder – a review
Critical Reviews in Food Science and Nutrition https://doi.org/10.1080/10408398.2019.1573800
Bárbara P. Martins, Narcisa M. Bandarra & Margarida Figueiredo-Braga
Items in both categories Autism and Omega-3 are listed here:
- Many autistic children are getting some Vitamin D, Omega-3, probiotics, etc. – Aug 2019
- Autistic symptoms reduced by Vitamin D and or Omega-3 – RCT March 2019
- Omega-3 probably can decrease Autism and ADHD – March 2019
- Autism treated in one person by Omega-3 plus Vitamin D – Dec 2018
- Autism problems reduced by Vitamin D, Omega-3 – RCT Oct 2018
- ADHD, Autism, Early Psychosis and Omega-3 – review Dec 2017
- Autism risks include chemicals, deficiency of vitamin D, Omega-3 – mini-review April 2016
Items in both categories ADHD and Omega-3 are listed here:
- ADHD risk factors include low Zinc, Vitamin D, Magnesium and Omega-3 (umbrella review) – Oct 2020
- Mental disorders fought by Omega-3 etc. - meta-meta-analysis Oct 2019
- Behavior disorders reduced with Magnesium, Omega-3, and Zinc
- ADHD children eat less fatty fish (Omega-3 again) – May 2019
- Omega-3 probably can decrease Autism and ADHD – March 2019
- Omega-3 reduced violence in children and violence between parents – RCT May 2018
- ADHD, Autism, Early Psychosis and Omega-3 – review Dec 2017
- ADHD 2 times more likely if poor Omega-6 to Omega-3 ratio – meta-analysis May 2016
- ADHD and Vitamin D Deficiency
 Download the PDF from VitaminDWiki
Autism Spectrum Disorders (ASD) and Attention-Deficit/Hyperactivity Disorder (ADHD) are two increasingly prevalent neurodevelopmental disorders. This rise may be associated with a higher dietary intake of n-6 polyunsaturated fatty acids (PUFAs) and lower of n-3 PUFAs. Docosahexaenoic acid (DHA), a key nutritional n-3 PUFA, is crucial for an optimal offspring’s neurodevelopment through the last trimester of pregnancy. Recently, lower DHA levels have been reported in children with ASD and ADHD. The present review summarizes the main research achievements concerning the effect of DHA in children neurodevelopment, in order to elicit its role in the prevention and mitigation of ASD and ADHD. As main finding, a low DHA supply seems to negatively affect childhood neurodevelopment in specific conditions and increase the risk and the severity of ASD or ADHD. Higher DHA status at birth was associated with better childhood neurodevelopmental, but controversial results found in prenatal supplementation raised the hypothesis that the benefits of DHA may be influenced by other factors as socio-economic background and life-style. In conclusion, an optimal DHA provision through maternal diet or breastfeed may promote some neuronal protection in specific offspring’s populations, suggesting that DHA may act as a modifiable risk factor for ASD and ADHD.