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Neuroinflammation Following Experimental Diffuse Brain Injury in Pre-pubertal and Peri-pubertal Rats
Description
Traumatic brain injury is the leading cause of mortality and morbidity in children and adolescents. Adolescence is a critical time in development where the body and brain undergoes puberty, which not only includes reproductive maturation, but also adult social and cognitive development. Brain-injury-induced disruptions can cause secondary inflammation processes and as a result, pediatric TBI can lead to significant life-long and debilitating morbidities that continue long after initial injury. In this study, neuroinflammation following diffuse brain injury was explored in prepubertal and peripubertal rats using an adapted method of midline fluid percussion injury (mFPI) for juvenile rats to further understand the relationship between pediatric TBI and puberty disruption due to endocrine dysfunction. We expect the adapted mFPI model to be effective in producing diffuse, moderate brain injury in juvenile rats and hypothesize that pre-pubertal rats (PND35) will have increased neuroinflammation compared to peri-pubertal rats (PND17) and shams because of the potential neuroprotective nature of sex steroids. Male Sprague-Dawley rats (n=90) were subjected to either a diffuse midline fluid percussion injury (mFPI) or sham injury at post-natal day (PND) 17 (pre-puberty) or PND35 (peri-puberty). Animals were sacrificed at different time points defined as days post injury (DPI) including 1DPI, 7DPI and 25DPI to represent both acute and chronic time points, allowing for comparisons within groups (injury vs. sham) and across groups (PND17 vs PND35). Body weight of the rats was measured postoperatively at various time points throughout the study to follow recovery. Tissue was collected and subjected to Heamatoxylin and Eosin (H&E) stain to visualize histology and evaluate the application of diffuse mFPI to juvenile rats. In addition, tissue underwent immunohistochemical analysis using 3,3'-diaminobenzidine (DAB) to stain for ionized calcium binding proteins (Iba1) in order to assess injury-related neuroinflammation in the form of microglia activation. Diffuse brain injury using the mFPI model did not affect rat body weight or cause overt cell death, suggesting adaption of the adult mFPI model for juvenile rats is representative of moderate diffuse brain injury. In addition, diffuse TBI lead to morphological changes in microglia suggesting there is an increased inflammatory response following initial insult, which may directly contribute to improper activation of pubertal timing and progression in adolescent children affected. Since there is little literature on the full effects of puberty dysfunction following TBI in the pediatric population, there is a significant need to further assess this area in order to develop improved interventions and potential therapies for this affected population.
ContributorsNewbold, Kelsey Bevier (Author) / Newbern, Jason (Thesis director) / Rowe, Rachel (Committee member) / Ortiz, J. Bryce (Committee member) / School of Mathematical and Natural Sciences (Contributor) / Department of Psychology (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05