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Translational Medical Research Commons™
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Full-Text Articles in Translational Medical Research
Hemostatic Nanoparticles Increase Survival, Mitigate Neuropathology And Alleviate Anxiety In A Rodent Blast Trauma Model, W. Brad Hubbard, Margaret Lashof-Sullivan, Shaylen Greenberg, Carly Norris, Joseph Eck, Erin Lavik, Pamela Vandevord
Hemostatic Nanoparticles Increase Survival, Mitigate Neuropathology And Alleviate Anxiety In A Rodent Blast Trauma Model, W. Brad Hubbard, Margaret Lashof-Sullivan, Shaylen Greenberg, Carly Norris, Joseph Eck, Erin Lavik, Pamela Vandevord
Spinal Cord and Brain Injury Research Center Faculty Publications
Explosions account for 79% of combat related injuries and often lead to polytrauma, a majority of which include blast-induced traumatic brain injuries (bTBI). These injuries lead to internal bleeding in multiple organs and, in the case of bTBI, long term neurological deficits. Currently, there are no treatments for internal bleeding beyond fluid resuscitation and surgery. There is also a dearth of treatments for TBI. We have developed a novel approach using hemostatic nanoparticles that encapsulate an anti-inflammatory, dexamethasone, to stop the bleeding and reduce inflammation after injury. We hypothesize that this will improve not only survival but long term functional …