Toddlers Who Eat Fish Have Lower Developmental Delay Risks

Summary: Introducing fish to toddlers’ diets could reduce their risk of neurodevelopmental delays.

The study, involving 142 children, found that eating fish at least once a week was associated with decreased neurodevelopmental delay risks, and this association was further influenced by the child’s microbiome. The research took into account various social and environmental factors, emphasizing the role of diet, particularly fish consumption, in neurodevelopment.

This study offers new insights into dietary impacts on early childhood development and the importance of microbial diversity in nutrient utilization.

Key Facts:

  1. Regular fish consumption in toddlers is linked to reduced neurodevelopmental delays, as observed in a study of 142 children.
  2. The protective effect of fish consumption on neurodevelopment is enhanced by the diversity of the child’s microbiome.
  3. The study controlled for various social and environmental factors, highlighting the independent impact of diet on neurodevelopment.

Source: Penn State

Adding fish to a toddler’s repertoire of finger foods may help protect them from neurodevelopmental delays, according to researchers at the Penn State College of Medicine.

The team studied 142 children from birth to age 18 months and found that consuming fish at least once a week was associated with a reduced risk of neurodevelopmental delays. Intriguingly, the positive influence of fish consumption on neurodevelopment was amplified by a child’s microbiome.

Indeed, the researchers found that beyond these social and environmental factors, children who ate fish at least once per week were less likely to display neurodevelopmental delays at 18 months old, and this protective effect was enhanced by microbial diversity. Credit: Neuroscience News

The research, which indicated the association persists across social and environmental considerations, was published in the journal Microorganisms.

“While some neurodevelopmental conditions are linked to genetics, emerging evidence suggests that environmental factors and social determinants of health may interact with genes to influence neurodevelopment,” said first author Terrah Keck-Kester, assistant professor of pediatrics at Penn State.

“Our findings suggest that diet, particularly fish consumption, may be one factor that could affect neurodevelopmental outcomes.”

The team assessed the nutrition of 142 infants at 6 and 12 months of age using the Infant Feeding Practices II Survey, a standardized questionnaire developed by the Food and Drug Administration and the Centers for Disease Control and Prevention. The researchers also collected saliva samples from the infants at 6 months and measured the activity levels of different bacteria within the samples.

“We chose saliva because of its ease of access at well-child visits, its proximity to the developing brain, and because the mouth represents one of the first sites of microbial contact for infants exploring their physical world,” said corresponding author Steven Hicks, associate professor of pediatrics at Penn State.

Finally, using parental responses to a Survey of Wellbeing in Young Children, a screening instrument that is recognized by the American Academy of Pediatrics, the team determined the presence or absence of neurodevelopmental delays—defined as delays in skills development such as running, speaking, and social interaction—in the children at age 18 months.

The team found that neurodevelopmental delays were associated with no infant fish consumption at 12 months. Neurodevelopmental delays were also associated with increased activity of two salivary microbes—Candidatus gracilibacteria and Chlorobi.

“There’s always the question, “Are the findings more related to variables other than the ones being studied?’” Keck-Kester said. “For example, consider factors that determine whether a person is able to eat more fish in their diet. With our statistical analysis, we were able to control for many of these factors.”

Keck-Kester explained that the team also studied social determinants of health—such as maternal stress, family income, and access to health care, as well as demographic contributions, such as race and ethnicity and age of their home—that could influence neurodevelopmental outcomes. The researchers found that Hispanic children were more likely to face neurodevelopmental challenges.

Indeed, the researchers found that beyond these social and environmental factors, children who ate fish at least once per week were less likely to display neurodevelopmental delays at 18 months old, and this protective effect was enhanced by microbial diversity.

“Our results suggest that microbial diversity may be important for the metabolism and utilization of essential nutrients, such as long-chain polyunsaturated fatty acids, that are associated with fish consumption,” Hicks said.

About this diet and neurodevelopment research news

Author: Terrah Keck-Kester
Source: Penn State
Contact: Terrah Keck-Kester – Penn State
Image: The image is credited to Neuroscience News

Original Research: Open access.
Infant Saliva Microbiome Activity Modulates Nutritional Impacts on Neurodevelopment” by Terrah Keck-Kester et al. Microorganisms


Abstract

Infant Saliva Microbiome Activity Modulates Nutritional Impacts on Neurodevelopment

Neurodevelopment is influenced by complex interactions between environmental factors, including social determinants of health (SDOH), nutrition, and even the microbiome. This longitudinal cohort study of 142 infants tested the hypothesis that microbial activity modulates the effects of nutrition on neurodevelopment.

Salivary microbiome activity was measured at 6 months using RNA sequencing. Infant nutrition was assessed longitudinally with the Infant Feeding Practices survey.

The primary outcome was presence/absence of neurodevelopmental delay (NDD) at 18 months on the Survey of Wellbeing in Young Children. A logistic regression model employing two microbial factors, one nutritional factor, and two SDOH accounted for 33.3% of the variance between neurodevelopmental groups (p < 0.001, AIC = 77.7). NDD was associated with Hispanic ethnicity (OR 18.1, 2.36–139.3; p = 0.003), no fish consumption (OR 10.6, 2.0–54.1; p = 0.003), and increased Candidatus Gracilibacteria activity (OR 1.43, 1.00–2.07; p = 0.007).

Home built after 1977 (OR 0.02, 0.001–0.53; p = 0.004) and Chlorobi activity (OR 0.76, 0.62–0.93, p = 0.001) were associated with reduced risk of NDD. Microbial alpha diversity modulated the effect of fish consumption on NDD (X2 = 5.7, p = 0.017).

These data suggest the benefits of fish consumption for neurodevelopment may be mediated by microbial diversity. Confirmation in a larger, randomized trial is required.