The gut-brain axis (GBA) has emerged as a central focus in the study of neurodevelopmental disorders, particularly autism spectrum disorder (ASD). Research suggests that microbial composition and its metabolic byproducts influence neural development, synaptic plasticity, and behavior [1,2,3]. A structured bibliometric analysis of Scopus and Web of Science records was performed using Bibliometrix and VOSviewer to trace trends and thematic evolution of GBA–ASD literature [7,8]. In parallel, a data-driven pathway modeling approach maps microbial metabolites (e.g., short-chain fatty acids, tryptophan catabolites) to host signaling pathways including vagal stimulation, immune cytokine modulation, and blood–brain barrier (BBB) permeability [4,5]. Simulations implemented in Python’s NetworkX illustrate how perturbations in metabolite flux may influence CNS outcomes. The findings reveal growing emphasis on butyrate, serotonin, microglial priming, and maternal immune activation in ASD-related GBA studies, and highlight the need for rigorous empirical validation of computational predictions [9,10,11].

Background: Maternal nutrition plays a crucial role in fetal brain development, with vitamin B12 being essential for neuronal myelination and cognitive function. The paper by Hrezova et al. entitled “Vitamin B12 Intake During Pregnancy Linked to Child Speech Development and Intelligence Quotient”, examines the association between maternal B12 intake and early childhood neurodevelopment. Methods: Using data from 5,151 mother-child pairs in the ELSPAC-CZ cohort, maternal B12 intake was assessed through dietary questionnaires, and child cognitive outcomes were evaluated at 18 months, 3 years, and 8 years. Multivariate adjustments were applied to control for potential confounders. Results: The research reports that higher maternal B12 intake was positively associated with improved language comprehension at 18 months (B=0.20,95% CI 0.06,0.34) and increased verbal IQ at 8 years (B=1.08,95% CI 0.09,2.08). However, no significant relationship was observed between maternal B12 intake and speech intelligibility at age 3 (OR=1.03,95% CI 0.99,1.07). Findings suggest B12’s role in early cognitive development but highlight gaps in its long-term effects. Conclusions: Ensuring adequate maternal B12 intake is vital for optimizing early neurodevelopment. Public health initiatives should promote B12 supplementation, especially for pregnant women at risk of deficiency. Further research with objective biomarkers is needed to clarify long-term effects.

Background: The sensory-motor network is essential for integrating sensory input with motor function and higher-order cognition. Resting-state functional connectivity (rsFC) within this network undergoes significant developmental changes, and disruptions in these connections have been linked to behavioral and psychiatric outcomes. However, the relationship between sensory-motor connectivity, early-life adversity, and later health behaviors remains understudied. Objective: This study examines the associations between rsFC within the sensory-motor network (mouth and hand regions) and key social, psychological, and behavioral factors, including baseline and past socioeconomic status (SES), trauma exposure, family conflict, impulsivity, major depressive disorder (MDD), and future substance use. Methods: Data were drawn from the Adolescent Brain Cognitive Development (ABCD) Study, a national sample of U.S. children. Resting-state fMRI data were used to assess functional connectivity within the sensory-motor network. Bivariate analyses examined associations between rsFC in the sensory-motor mouth and hand regions and baseline SES, past SES, childhood trauma exposure, family conflict, impulsivity, and MDD. Longitudinal analyses assessed whether baseline rsFC predicted future substance use. Results: Greater rsFC between the sensory-motor mouth and hand regions was significantly associated with lower SES, higher trauma exposure, and greater family conflict. Increased connectivity was also correlated with older age and more advanced puberty status. Higher rsFC between the sensory-motor mouth and hand regions was linked to greater impulsivity, lower cognitive function, an increased likelihood of MDD, and future marijuana use. Conclusion: These findings suggest that sensory-motor connectivity is sensitive to socioeconomic and psychosocial stressors, with potential long-term implications for mental health and substance use risk. The results highlight the importance of early-life environmental factors in shaping neurodevelopmental trajectories and emphasize the need for targeted interventions to mitigate the effects of adversity on brain function and behavior. Future research should further explore the role of sensory-motor network alterations in behavioral health outcomes as a function of environmental stressors.

Autism Spectrum Disorder (ASD) is a neurodevelopmental disease that includes a wide range of functional impairments, such as social and communication deficiencies, as well as limited and selective interest and behavioral patterns that are repetitive. Children with ASD often show developmental delay, which is noticeable at an early age, and show a wide range of symptoms that interfere with daily functioning, so early diagnosis includes early interventions. A complex set of genetic and environmental factors is associated with the development of ASD, which makes ASD a complex disorder, so there is a clear distinction between neurodivergent and neurotypical individuals. Since ASD is caused by a combination of certain genetic mutations and the prenatal/postnatal environment, we focused on the etiology of ASD in viral infections, i.e., Cytomegalovirus (CMV) as a possible cause of ASD. CMV is a neurotropic herpesvirus, which can be transmitted from mother to child during pregnancy. Cytomegalovirus (CMV) infection, which is often asymptomatic and can remain latent throughout life, can pose a danger to immune insufficiency individuals during pregnancy. CMV is the most common pathogen that causes intrauterine infections, is the most common cause of nongenetic sensorineural hearing loss in children, and the main cause of neurodevelopmental delay, so research suggests an association between congenital CMV infection with ASD and maternal seropositivity for CMV in pregnancy. spectrum in children. In the research, we used various online databases as sources for our study. The result of our research and processing of the given information indicates that maternal CMV infection in pregnancy is related to the development of autism spectrum disorders in children.