Developmental neuroscience
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Development and aging are influenced by external factors with the potential to impact health throughout the life span. Traumatic brain injury (TBI) can initiate and sustain a lifetime of physical and mental health symptoms. Over 1.7 million TBIs occur annually in the USA alone, with epidemiology suggesting a higher incidence for young age groups. ⋯ A single diffuse TBI did not result in chronic depression-like behaviors or changes in body weight among any groups. The interplay of age at injury and aging with an injury are translationally important factors that influence behavioral performance as a quality of life metric. More complete understanding of these factors can direct rehabilitative efforts and personalized medicine for TBI survivors.
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Local circuit GABAergic neurons, including parvalbumin (PV)-containing basket cells, likely play a key role in the development, physiology, and pathology of neocortical circuits. Regionally selective and well-defined decreases in PV have been described in human postmortem schizophrenic brain tissue in both the hippocampus and prefrontal cortex. Animal models of schizophreniform dysfunction following acute and/or chronic ketamine treatment have also demonstrated decreases in PV expression. ⋯ Our findings suggest that the hippocampal PV+ cell number significantly decreases as a function of age with considerable regional (CA1, CA3, and DG) and septotemporal variation, a finding that was specific to the hippocampus. Additionally, we observed a modest increase in PV cell number within the prefrontal (anterior cingulate) cortex, which is in line with findings indicating a delayed developmental maturation of this region. The present work highlights decreases in PV+ cell counts within the hippocampus across development, and points to the need for a greater understanding of the role of PV and local circuit developmental changes, as well as consideration of their development when modeling developmentally related neuropathological disorders (e.g. schizophrenia, autism).