Journal of neurotrauma
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Journal of neurotrauma · Jul 2009
Wnt-Ryk signaling mediates axon growth inhibition and limits functional recovery after spinal cord injury.
Wnt proteins are a large family of diffusible factors that play important roles in embryonic development, including axis patterning, cell fate specification, proliferation, and axon development. It was recently demonstrated that Ryk (receptor related to tyrosine kinase) is a conserved high-affinity Wnt receptor, and that Ryk-Wnt interactions guide corticospinal axons down the spinal cord during development. Here, we report that the Ryk-Wnt signal mediates the inhibition of corticospinal axon growth in the adult spinal cord. ⋯ In vitro, Wnt-5a inhibits the neurite growth of postnatal cerebellar neurons by activating RhoA/Rho-kinase. In rats with thoracic spinal cord contusion, intrathecal administration of a neutralizing antibody to Ryk resulted in significant axonal growth of the corticospinal tract and enhanced functional recovery. Thus, reexpression of the embryonic repulsive cues in adult tissues contributes to the failure of axon regeneration in the central nervous system.
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Journal of neurotrauma · Jun 2009
Blast overpressure in rats: recreating a battlefield injury in the laboratory.
Blast injury to the brain is the predominant cause of neurotrauma in current military conflicts, and its etiology is largely undefined. Using a compression-driven shock tube to simulate blast effects, we assessed the physiological, neuropathological, and neurobehavioral consequences of airblast exposure, and also evaluated the effect of a Kevlar protective vest on acute mortality in rats and on the occurrence of traumatic brain injury (TBI) in those that survived. This approach provides survivable blast conditions under which TBI can be studied. ⋯ Airblast of this intensity also disrupted neurologic and neurobehavioral performance (e.g., beam walking and spatial navigation acquisition in the Morris water maze). When immediately followed by hemorrhagic hypotension, with MAP maintained at 30 mm Hg, airblast disrupted cardiocompensatory resilience, as reflected by reduced peak shed blood volume, time to peak shed blood volume, and time to death. These findings demonstrate that shock tube-generated airblast can cause TBI in rats, in part through systemic mediation, and that the resulting brain injury significantly impacts acute cardiovascular homeostatic mechanisms as well as neurobehavioral function.
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Journal of neurotrauma · Jun 2009
ReviewBiomarkers of blast-induced neurotrauma: profiling molecular and cellular mechanisms of blast brain injury.
The nature of warfare in the 21st century has led to a significant increase in primary blast or over-pressurization injuries to the whole body and head, which manifest as a complex of neuro-somatic damage, including traumatic brain injury (TBI). Identifying relevant pathogenic pathways in reproducible experimental models of primary blast wave exposure is therefore vital to the development of biomarkers for diagnostics of blast brain injury. ⋯ In this article, we present an overview of current TBI biomarkers, as well as outline experimental strategies to investigate molecular signatures of blast neurotrauma and to develop a pathway network map for novel biomarker discovery. These biomarkers will be effective for triaging and managing both combat and civilian casualities.
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Journal of neurotrauma · Jun 2009
ReviewIn-vitro approaches for studying blast-induced traumatic brain injury.
Traumatic brain injury caused by explosive or blast events is currently divided into four phases: primary, secondary, tertiary, and quaternary blast injury. These phases of blast-induced traumatic brain injury (bTBI) are biomechanically distinct, and can be modeled in both in-vivo and in-vitro systems. ⋯ Highlighted are some important gaps in the literature that may be addressed in the future to better identify the exact contributing mechanisms for bTBI. These in-vitro models, viewed in combination with in-vivo models and clinical studies, can be used to assess both the mechanisms and possible treatments for this type of trauma.