No evidence for a link between childhood (6-10y) cellular aging and brain morphology (12y) in a preregistered longitudinal study
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Abstract
Animal studies show that early life environmental factors, such as stress and trauma, can have a significant impact on a variety of bodily processes, including cellular aging and brain development. However, whether cellular wear-and-tear effects are also associated with individual differences in brain structures in humans, remains unknown. In this pre-registered study in a community sample of children (N=94, Mean age=12.71 years), we prospectively investigated the predictive value of two markers of cellular aging in childhood (at age 6 and 10) for brain morphology in early adolescence (age 12). More specifically, we associated buccal cell telomere length and epigenetic age in childhood to individual differences in adolescent whole-brain grey matter volume (GMV) including volumes of three regions of interest that have been found to be sensitive to effects of early life stress (i.e. amygdala, hippocampus, (pre)frontal cortex -PFC). Multiple regression analyses revealed no significant associations between childhood cellular aging (at 6 and 10 years) and early adolescent brain morphology. Exploratory Bayesian analyses indicated moderate to strong evidence for the null-findings. These results suggest that although our sample is modest, the associations between middle childhood cellular aging and early adolescent brain morphology are, if they do exist, likely not particularly large in community children. Future work should investigate whether these effects are similarly absent in large samples, in samples with a higher risk profile and in samples characterized by different age ranges. Highlights (3-5) - Investigation of cellular aging in relation to brain morphology in a community sample (N=95) - Epigenetic aging and telomere shortening were not associated with brain structure - Exploratory Bayesian Analyses reveal moderate to strong evidence for null findings - No association was found between cellular aging and white matter volume
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