Relationship between vitamin B12 levels and motor development: A systematic review.

BACKGROUND AND OBJECTIVES: Nutrition plays a crucial role in the development and health of the human brain, from early stages to adulthood. The complex process of neurodevelopment necessitates interaction among various factors, with balance in the concentration of vital macronutrients and micronutrients being essential. Regarding micronutrients, vitamin B12 stands out, playing a vital role in the development and functioning of the motor nervous system. The objective was to investigate the influence of reduced levels of vitamin B12 on infant motor development and analyze the effects of supplementation on this aspect of development. METHODS: For this purpose, the criteria of the PRISMA method and registration in the PROSPERO database were used. The search was conducted in the following databases: PubMed (Medline), Scopus, PsycINFO, Web of Science, and ScienceDirect. A total of 684 records were initially identified. RESULTS: Of the eight included articles, there was diversity regarding geographical contexts and study designs. The final sample comprised a total of 1,559 participants of both sexes. Studies aimed at correcting low levels of vitamin B12 opted for supplementation, following various protocols that varied in dose, administration method, and duration. At the end of the studies, the serum level of this vitamin ranged from 131 pmol/L to 1141 pmol/L. CONCLUSION: There is a complex array of factors contributing to reduced levels of vitamin B12, especially in the early stages of life, which significantly impacts infant motor development. Despite methodological variations among studies, evidence suggests that low levels of vitamin B12 may affect motor development and that supplementation could be an effective means of enhancing motor aspects in healthy children. However, due to the diversity of outcomes, it is important to promote comprehensive public policies to encourage appropriate interventions in this area.

Corrigendum: Impact of vitamin D on cognitive functions in healthy individuals: A systematic review in randomized controlled clinical trials.

[This corrects the article DOI: 10.3389/fpsyg.2022.987203.].

Impact of vitamin D on cognitive functions in healthy individuals: A systematic review in randomized controlled clinical trials.

Various functions in the central nervous system, such as growth, development, and cognition can be influenced by vitamins and minerals, which are capable of helping to maintain brain health and function throughout life. Cognition is understood as the aspects related to knowledge, learning, and understanding, as well as the ability to develop these functions. A possible association between low levels of vit D and deficit in the performance of cognitive functions in healthy humans or with some pathological condition is discussed. Because of this, the present systematic review analyzed only randomized clinical trials carried out in healthy non-athlete adults about intellectual and/or mental processes involving cognitive functions to identify whether these individuals with different levels of vit D are capable of interfering with the performance of the cognitive function. To do so, we adopted the PRISMA method criteria and registered it in the PROSPERO database. The search was performed in PubMed (MEDLINE), PsycINFO, Science Direct, Scopus, and Web of Science databases, 2,167 records were identified. The 5 most frequent cognitive domains in the selected studies were: processing speed, attention, verbal learning/memory, executive function, and general cognitive functions. We found that there are positive changes in the following domains: verbal memory and verbal working memory, learning memory, attention, executive function, and also cognitive function in general. We highlight the following suggestions for improvements that vitamin D supplementation may promote in the cognitive domains of healthy adults: a) low doses between 400 and 600 IU/d seem to be more effective when compared to doses between 2,400 and 5,000 IU/d and b) food fortification and enrichment with vit D, need further studies, as they seem to be more or as effective as synthetic supplementation. We evident that there is a need for trials that evaluate the control of vit D levels for healthy adult individuals is important, as they have the potential to minimize health problems, especially those involved in the reduction of cognitive abilities. Thus, the development of more clinical trials to obtain satisfactory answers on this topic needs to be encouraged. Systematic review registration: https://www.crd.york.ac.uk/PROSPERO/, identifier: CRD42021262413.

Does the enriched environment alter memory capacity in malnourished rats by modulating BDNF expression?

Environmental factors interfere in the neural plasticity processes. Among these, malnutrition in the early stages of life stands out as one of the main non-genetic factors that can interfere in the morphofunctional development of the nervous system. Furthermore, sensory stimulation from enriched environments (EE) also interferes with neural development. These two factors can modify areas related to memory and learning as the hippocampus, through mechanisms related to the gene expression of brain-derived neurotrophic factor (BDNF). The BDNF may interfere in synaptic plasticity processes, such as memory. In addition, these changes in early life may affect the functioning of the hippocampus during adulthood through mechanisms mediated by BDNF. Therefore, this study aims to conduct a literature review on the effects of early malnutrition on memory and the relationship between the underlying mechanisms of EE, BDNF gene expression, and memory. In addition, there are studies that demonstrate the effect of EE reversal on exposure to changes in the functioning of hippocampal malnutrition in adult rats that were prematurely malnourished. Thereby, evidence from the scientific literature suggests that the mechanisms of synaptic plasticity in the hippocampus of adult animals are influenced by malnutrition and EE, and these alterations may involve the participation of BDNF as a key regulator in memory processes in the adult animal hippocampus.

Effects of Overweight/Obesity on Motor Performance in Children: A Systematic Review.

Childhood obesity is a serious public health problem. Childhood obesity and overweight are associated with the appearance of coordination deficit disorder and can cause impaired motor performance. We searched online databases for all related articles using comprehensive international databases from the Medline PubMed Institute, Web of Science, ScienceDirect, SCOPUS, and PsycINFO up to December 20, 2020. Overall, 33 studies were included in this systematic review. The present review demonstrated that children with higher percentage of body fat had lower levels of moderate to vigorous physical activity, as well as decreased levels of gross motor coordination, as shown by tests for neuromuscular performance. These results corroborate the hypothesis that overweight and obesity in children and adolescents are associated, not only with insufficient performance during gross motor coordination activities, but also with a greater risk to physical health. Systematic Review Registration: [https://www.crd.york.ac.uk/prospero/], identifier [CRD42020182935].