Traumatically induced axonal injury: pathogenesis and pathobiological implications

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Povlishock, John T.¹

Traumatically induced axonal injury: pathogenesis and pathobiological implications

Brain Pathol. January 1992;2(1):1-12

Affiliations

¹Department of Anatomy and Division of Neurological Surgery, Medical College of Virginia, Virginia Commonwealth University, Richmond, Virginia 23298-0709, U.S.A.
Abstract

This work reviews the pathobiology of traumatically induced axonal injury. Drawing upon literature gleaned from the experimental and clinical setting, this review attempts to emphasize that, other than the most destructive insults, traumatic brain injury does not typically cause direct mechanical disruption of the axon. Rather, this review documents that with traumatic injury focal, subtle axonal change occurs, and that over time, such change leads to impaired axoplasmic transport, continued axonal swelling, and ultimate disconnection. The initial intra-axonal events that trigger the above described sequence of reactive axonal change are considered with focus on the possibility of either traumatically altered axolemmal permeability, direct cytoskeletal damage/perturbation, or more overt metabolic/functional disturbances. Not only does this review focus on the sequence of traumatically induced axonal change, but also, it considers its attendant consequences in terms of Wallerian degeneration and subsequent deafferentation. The concept that traumatically induced diffuse axonal injury leads to diffuse deafferentation is emphasized together with its pathobiological implications for morbidity and recovery. The potential for either adaptive or maladaptive neuroplasticity subsequent to such diffuse deafferentation is considered in the context of mild, moderate and severe traumatic brain injury.
Links

DOI: 10.1111/j.1750-3639.1991.tb00050.x

PubMed: 1341941

WoS: A1992HG94100001

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Cited By (26)

Year	Entry
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2006	Fijalkowski RJ, Stemper BD, Ellingson BM, Yoganandan N, Pintar FA, Gennarelli TA. Inducing mild traumatic brain injury in the rodent through coronal plane angular acceleration. In: Proceedings of the 2006 International IRCOBI Conference on the Biomechanics of Impact. September 20-22, 2006; Madrid, Spain.115-125.
2009	Davidsson J, Angeria M, Risling M. Injury threshold for sagittal plane rotational induced diffuse axonal injuries. In: Proceedings of the 2009 International IRCOBI Conference on the Biomechanics of Impact. September 9-11, 2009; York, UK.43-55.
2006	Singh A, Lu Y, Chen C, Kallakuri S, Cavanaugh JM. A new model of traumatic axonal injury to determine the effects of strain and displacement rates. Stapp Car Crash J. 2006;50:601-623. SAE 2006-22-0023.
1993	Maxwell WL, Watt C, Graham DI, Gennarelli TA. Ultrastructural evidence of axonal shearing as a result of lateral acceleration of the head in non-human primates. Acta Neuropathol. July 1993;86(2):136-144.
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1997	Maxwell WL, Graham DI. Loss of axonal microtubules and neurofilaments after stretch-injury to guinea pig optic nerve fibers. J Neurotrauma. September 1997;14(9):603-614.
2007	Fijalkowski RJ, Stemper BD, Pintar FA, Yoganandan N, Crowe MJ, Gennarelli TA. New rat model for diffuse brain injury using coronal plane angular acceleration. J Neurotrauma. August 2007;24(8):1387-1398.
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2000	Anderson RWG. A Study on the Biomechanics of Axonal Injury [PhD thesis]. Adelaide, Australia: University of Adelaide; 2000.
2019	Wofford KL. Utilizing the Innate Immune System to Mitigate Secondary Injury Following Traumatic Brain Injury [PhD thesis]. Drexel University; May 2019.
2008	Fijalkowski RJ. Rotational Acceleration Pulse Characteristics Affect Mild Diffuse Brain Injury Severity [PhD thesis]. Marquette University; May 2008.
2007	Hao H. Identification of the Effects of Axonal Coupling to the Glial Matrix on Axonal Kinematics [PhD thesis]. Rutgers University; October 2007.
2013	Carlson SW. Evaluation of Insulin-Like Growth Factor-1 as a Therapeutic Approach for the Treatment of Traumatic Brain Injury [PhD thesis]. University of Kentucky; 2013.
1998	Bain AC. In Vivo Mechanical Thresholds for Morphological and Functional Axonal Injury [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 1998.
2017	Vascak M. Structural and Functional Alterations in Neocortical Circuits After Mild Traumatic Brain Injury [PhD thesis]. Richmond, VA: Virginia Commonwealth University; April 2017.
2006	Singh A. The Effects of Tensile Loading on Mechanical, Neurophysiological and Morphological Changes in Spinal Nerve Roots [PhD thesis]. Detroit, MI: Wayne State University; December 2006.
2011	Guruprakash DK. Effects of Strain and Strain Rate on Axonal Injury in a Spinal Nerve Root Model [Master's thesis]. Detroit, MI: Wayne State University; 2011.
2011	Zakaria N. Comparison of Progression of Diffuse Axonal Injury With Histology and Diffusion Tensor Imaging [PhD thesis]. Detroit, MI: Wayne State University; 2011.
2015	Li Y. An Investigation of the Relationship Between Axonal Injury, Biomarker Expression and Mechanical Response in a Rodent Head Impact Acceleration Model [PhD thesis]. Detroit, MI: Wayne State University; 2015.