BACKGROUND: Traumatic brain injury (TBI) remains a devastating condition for which extracranial protection traditionally has been in the form of helmets, which largely fail to protect against intracranial injury. OBJECTIVE: To determine whether the pathological outcome after traumatic brain injury can be improved via slosh mitigation by internal jugular vein (IJV) compression. METHODS: Two groups of 10 adult male Sprague-Dawley rats were subjected to impact-acceleration traumatic brain injury. One group underwent IJV compression via application of a collar before injury; the second group did not. Intracranial pressure and intraocular pressure were measured before and after IJV compression to assess collar performance. All rats were killed after a 7-day recovery period, and brainstem white matter tracts underwent fluorescent immunohistochemical processing and labeling of β-amyloid precursor protein, a marker of axonal injury. Digital imaging and statistical analyses were used to determine whether IJV compression resulted in a diminished number of injured axons. RESULTS: Compression of the IJV resulted in an immediate 30% increase in intraocular and intracranial pressures. Most notably, IJV compression resulted in > 80% reduction in the number of amyloid precursor protein-positive axons as indicated by immunohistochemical analysis. CONCLUSION: Using a standard acceleration-deceleration laboratory model of mild traumatic brain injury, we have shown successful prevention of axonal injury after IJV compression as indicated by immunohistochemical staining of amyloid precursor protein. We argue that IJV compression reduces slosh-mediated brain injury by increasing intracranial blood volume, which can be indirectly measured by intracranial and intraocular pressures.
BACKGROUND:Traumatic brain injury (TBI) remains a devastating condition for which extracranial protection traditionally has been in the form of helmets, which largely fail to protect against intracranial injury. OBJECTIVE: To determine whether the pathological outcome after traumatic brain injury can be improved via slosh mitigation by internal jugular vein (IJV) compression. METHODS: Two groups of 10 adult male Sprague-Dawley rats were subjected to impact-acceleration traumatic brain injury. One group underwent IJV compression via application of a collar before injury; the second group did not. Intracranial pressure and intraocular pressure were measured before and after IJV compression to assess collar performance. All rats were killed after a 7-day recovery period, and brainstem white matter tracts underwent fluorescent immunohistochemical processing and labeling of β-amyloid precursor protein, a marker of axonal injury. Digital imaging and statistical analyses were used to determine whether IJV compression resulted in a diminished number of injured axons. RESULTS: Compression of the IJV resulted in an immediate 30% increase in intraocular and intracranial pressures. Most notably, IJV compression resulted in > 80% reduction in the number of amyloid precursor protein-positive axons as indicated by immunohistochemical analysis. CONCLUSION: Using a standard acceleration-deceleration laboratory model of mild traumatic brain injury, we have shown successful prevention of axonal injury after IJV compression as indicated by immunohistochemical staining of amyloid precursor protein. We argue that IJV compression reduces slosh-mediated brain injury by increasing intracranial blood volume, which can be indirectly measured by intracranial and intraocular pressures.
Authors: Xiao Yang; Tao Zhou; Theodore J Zwang; Guosong Hong; Yunlong Zhao; Robert D Viveros; Tian-Ming Fu; Teng Gao; Charles M Lieber Journal: Nat Mater Date: 2019-02-25 Impact factor: 43.841
Authors: Scott Bonnette; Jed A Diekfuss; Adam W Kiefer; Michael A Riley; Kim D Barber Foss; Staci Thomas; Christopher A DiCesare; Weihong Yuan; Jonathan Dudley; Amit Reches; Gregory D Myer Journal: Exp Brain Res Date: 2018-07-10 Impact factor: 1.972
Authors: Matthew J Robson; Ryan C Turner; Zachary J Naser; Christopher R McCurdy; James P O'Callaghan; Jason D Huber; Rae R Matsumoto Journal: Exp Neurol Date: 2014-02-06 Impact factor: 5.330
Authors: Weihong Yuan; Kim D Barber Foss; Staci Thomas; Christopher A DiCesare; Jonathan A Dudley; Katie Kitchen; Brooke Gadd; James L Leach; David Smith; Mekibib Altaye; Paul Gubanich; Ryan T Galloway; Paul McCrory; Julian E Bailes; Rebekah Mannix; William P Meehan; Gregory D Myer Journal: Hum Brain Mapp Date: 2017-10-28 Impact factor: 5.038
Authors: Aric F Logsdon; Brandon P Lucke-Wold; Ryan C Turner; Jason D Huber; Charles L Rosen; James W Simpkins Journal: Compr Physiol Date: 2015-07-01 Impact factor: 9.090
Authors: Christy L Collins; Erica N Fletcher; Sarah K Fields; Lisa Kluchurosky; Mary Kay Rohrkemper; R Dawn Comstock; Robert C Cantu Journal: J Prim Prev Date: 2014-10
Authors: Weihong Yuan; Jonathan Dudley; Kim D Barber Foss; Jonathan D Ellis; Staci Thomas; Ryan T Galloway; Christopher A DiCesare; James L Leach; Janet Adams; Thomas Maloney; Brooke Gadd; David Smith; Jeff N Epstein; Dustin R Grooms; Kelsey Logan; David R Howell; Mekibib Altaye; Gregory D Myer Journal: J Neurotrauma Date: 2018-03-27 Impact factor: 5.269
Authors: Gregory D Myer; Weihong Yuan; Kim D Barber Foss; Staci Thomas; David Smith; James Leach; Adam W Kiefer; Chris Dicesare; Janet Adams; Paul J Gubanich; Katie Kitchen; Daniel K Schneider; Daniel Braswell; Darcy Krueger; Mekibib Altaye Journal: Br J Sports Med Date: 2016-06-15 Impact factor: 13.800
Authors: David W Smith; Gregory D Myer; Dustin W Currie; R Dawn Comstock; Joseph F Clark; Julian E Bailes Journal: Orthop J Sports Med Date: 2013-11-08
Authors: Gregory D Myer; Weihong Yuan; Kim D Barber Foss; David Smith; Mekibib Altaye; Amit Reches; James Leach; Adam W Kiefer; Jane C Khoury; Michal Weiss; Staci Thomas; Chris Dicesare; Janet Adams; Paul J Gubanich; Amir Geva; Joseph F Clark; William P Meehan; Jason P Mihalik; Darcy Krueger Journal: Front Neurol Date: 2016-06-06 Impact factor: 4.003