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Description
The brain is the most important part of the central nervous system in the human body. It is the center of consciousness and controls all voluntary motor activity of the body. Mechanical trauma sustained to the head during a car

The brain is the most important part of the central nervous system in the human body. It is the center of consciousness and controls all voluntary motor activity of the body. Mechanical trauma sustained to the head during a car accident, fall, or sports injury can lead to a traumatic brain injury (TBI) that may have long ranging and sustained physical, cognitive and emotional effects. TBI is the most common form of brain injury and it contributes to one third of all injury related deaths in the United States. The Stabenfeldt lab aims to develop regenerative strategies that will harness inherent endogenous repair mechanisms in traumatic brain injury to improve functional outcomes in cognitive and motor functions. Previous research has demonstrated that the acute inflammatory response after TBI releases soluble cytokines that mediate regeneration after TBI. One of such soluble signal is stromal cell derived factor-1α (SDF-1α) and its receptor CXCR4. The SDF-1α/CXCR4 signaling axis directs the migration and organization of neural progenitor/ stem cells which is important in the regeneration of the injury area. In this study, we probed this paradigm by injecting bolus and nanoparticle exogenous SDF-1α intracortically into mice then sacrificing at 1, 3, and 7 days’ post-injection. Increased CXCR4 positive cells were expressed around the SDF-1α injection area. This study specifically focused on characterizing microglia and macrophage population in the brains that expressed CXCR4 via immunohistochemistry. Data from this study showed that the bolus group initiated microglial activation within the injection tract particularly at day 3 post injection which was resolved by day 7. However, the nanoparticle group initiated the activation of microglial/macrophages as early as day 1 post injection which proceeded to day 7. This shows that the nanoparticle groups initiated an
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inflammatory reaction in the injection tract irrespective of SDF-1α since the blank nanoparticle (nanoparticle with no SDF-1α) group exhibited the identical trend.


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Details

Title
  • Characterization of Inflammatory Cell Population in Brain After SDF-1α Injection
Contributors
Date Created
2017-05
Resource Type
  • Text
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