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Query: UMLS:C0851184 (thinning)
 11,252 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The association between physical fitness and age-related differences in cognition and brain structure has been studied fairly extensively during development and aging, yet comparatively less in young adulthood. The current study examined 1,195 young adults aged 22 to 36 (54% female; 67% Caucasian) to better understand associations between physical fitness-grip strength and submaximal cardiovascular endurance-and age-related differences in executive function (EF), memory, and average cortical thickness. EF, memory, and cortical thickness were negatively associated with age, and higher endurance was positively associated with EF and memory. Neither physical fitness measure associated with cortical thinning. To follow-up on these analyses, data from monozygotic (n = 149 pairs) and dizygotic (n = 93 pairs) twins were used to estimate the degree to which heritability versus environment might contribute to the observed associations between cognition and endurance. Environmental effects shared by monozygotic and dizygotic twins alike were estimated to account for roughly 50% of the correlation between endurance and cognition (EF and memory). Heritability and nonshared environmental effects were inconsistent across EF and memory. Overall, these findings suggest an association between cardiovascular endurance and age-related differences in cognition in young adulthood and that these associations may be independent of cortical thinning. Whereas there was consistent evidence for a moderate contribution of the shared environment, there was limited and inconsistent evidence for a role of heritability. (PsycInfo Database Record (c) 2020 APA, all rights reserved).
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PMID:Physical fitness and age-related differences in cognition and cortical thickness in young adulthood. 3270 Sep 43

Life history theory argues that exposure to early life adversity (ELA) accelerates development, although existing evidence for this varies. We present a meta-analysis and systematic review testing the hypothesis that ELA involving threat (e.g., violence exposure) will be associated with accelerated biological aging across multiple metrics, whereas exposure to deprivation (e.g., neglect, institutional rearing) and low-socioeconomic status (SES) will not. We meta-analyze 54 studies (n = 116,010) examining associations of ELA with pubertal timing and cellular aging (telomere length and DNA methylation age), systematically review 25 studies (n = 3,253) examining ELA and neural markers of accelerated development (cortical thickness and amygdala-prefrontal cortex functional connectivity) and evaluate whether associations of ELA with biological aging vary according to the nature of adversity experienced. ELA overall was associated with accelerated pubertal timing (d = -0.10) and cellular aging (d = -0.21), but these associations varied by adversity type. Moderator analysis revealed that ELA characterized by threat was associated with accelerated pubertal development (d = -0.26) and accelerated cellular aging (d = -0.43), but deprivation and SES were unrelated to accelerated development. Systematic review revealed associations between ELA and accelerated cortical thinning, with threat-related ELA consistently associated with thinning in ventromedial prefrontal cortex, and deprivation and SES associated with thinning in frontoparietal, default, and visual networks. There was no consistent association of ELA with amygdala-PFC connectivity. These findings suggest specificity in the types of early environmental experiences associated with accelerated biological aging and highlight the importance of evaluating how accelerated aging contributes to health disparities and whether this process can be mitigated through early intervention. (PsycInfo Database Record (c) 2020 APA, all rights reserved).
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PMID:Biological aging in childhood and adolescence following experiences of threat and deprivation: A systematic review and meta-analysis. 3274 40