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Traumatic brain injury (TBI) affects 5.3 million Americans annually. Despite the many long-term deficits associated with TBI, there currently are no clinically available therapies that directly address the underlying pathologies contributing to these deficits. Preclinical studies have investigated various therapeutic

Traumatic brain injury (TBI) affects 5.3 million Americans annually. Despite the many long-term deficits associated with TBI, there currently are no clinically available therapies that directly address the underlying pathologies contributing to these deficits. Preclinical studies have investigated various therapeutic approaches for TBI: two such approaches are stem cell transplantation and delivery of bioactive factors to mitigate the biochemical insult affiliated with TBI. However, success with either of these approaches has been limited largely due to the complexity of the injury microenvironment. As such, this review outlines the many factors of the injury microenvironment that mediate endogenous neural regeneration after TBI and the corresponding bioengineering approaches that harness these inherent signaling mechanisms to further amplify regenerative efforts.

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    Title
    • Endogenous Repair Signaling After Brain Injury and Complementary Bioengineering Approaches to Enhance Neural Regeneration
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    Date Created
    2015-05-12
    Resource Type
  • Text
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    Identifier
    • Digital object identifier: 10.4137/BMI.S20062
    • Identifier Type
      International standard serial number
      Identifier Value
      1177-2719
    Note
    • The final version of this article, as published in Biomarker Insights, can be viewed online at: http://insights.sagepub.com/endogenous-repair-signaling-after-brain-injury-and-complementary-bioen-article-a4829

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    Addington, C., Dutta, D., Roussas, A. & Stabenfeldt, S. (2015). Endogenous Repair Signaling after Brain Injury and Complementary Bioengineering Approaches to Enhance Neural Regeneration. Biomarker Insights, 43. doi:10.4137/bmi.s20062

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