Axonal change in minor head injury

wbldb

Povlishock, J. T.¹; Becker, D. P.²; Cheng, C. L. Y.¹; Vaughan, G. W.¹

Axonal change in minor head injury

J Neuropathol & Exp Neurol. 1983;42(3):225-242

Affiliations

¹Department of Anatomy, Medical College of Virginia, Virginia Commonwealth University, Richmond, Virginia

²Department of Surgery, Medical College of Virginia, Virginia Commonwealth University, Richmond, Virginia
Abstract and keywords

Anterograde axonal transport of horseradish peroxidase (HRP) in selected cerebral and cerebellar efferents was studied in cats subjected to minor head injury. After trauma, the animals were allowed to survive from one to 24 hours, when they were perfused with aldehydes and processed for the light and electron microscopic visualization of the peroxidase reaction product. By light microscopy, the brain injury elicited an initial intra-axonal peroxidase pooling. With longer post-traumatic survival, HRP pooling increased in size, demonstrated frequent tabulation, and ultimately formed large ball- or club-like swellings which suggested frank axonal separation from the distal axonal segment. Ultrastructural examination revealed that the initial intra-axonal peroxidase pooling was associated with organelle accumulation which occurred without any other form of axonal change or related parenchymal or vascular damage. This accumulation of organelles increased with time and was associated with conspicuous axonal swelling. Ultimately these organelle-laden swellings lost continuity with the distal axonal segment and the axonal swelling was either completely invested by a thin myelin sheath or protruded without myelin investment into the brain parenchyma. This study suggests that axonal change is a consistent feature of minor head injury. Since these axonal changes occurred without any evidence of focal parenchymal or vascular damage, minor brain injury may ultimately disrupt axons without physically shearing or tearing them.

Keywords: Axons, swelling; Axoplasmic flow; Brain trauma; Horseradish peroxidase
Links

DOI: 10.1097/00005072-198305000-00002

PubMed: 6188807

WoS: A1983QP89900002
History

Received: 1982-08-11

Accepted: 1982-09-24

Cited Works (4)

Year	Entry
1968	Oppenheimer DR. Microscopic lesions in the brain following head injury. J Neurol Neutrosurg Psychiatry. August 1968;31(4):299-306.
1977	Adams JH, Mitchell DE, Graham DI, Doyle D. Diffuse brain damage of immediate impact type: its relationship to "primary brain-stem damage" in head injury. Brain. July 1977;100(3):489-502.
1967	Peerless SJ, Rewcastle NB. Shear injuries of the brain. Can Med Assoc J. March 11, 1967;96(10):577-582.
1961	Strich SJ. Shearing of nerve fibres as a cause of brain damage due to head injury: a pathological study of twenty cases. Lancet. August 26, 1961;278(7200):443-448.

Cited By (37)

Year	Entry
2015	Melvin JW, Yoganandan N. Biomechanics of brain injury: a historical perspective. In: Yoganandan N, Nahum AM, Melvin JW, eds. Accidental Injury: Biomechanics and Prevention. 3rd ed. New York: Springer; 2015:221-245.
1995	Blumbergs PC, Scott G, Manavis J, Wainwright H, McLean AJ, Kloeden C, Simpson DA. Topography and quantitation of axonal injury as defined by amyloid precursor protein and the sector scoring method in lateral and occipital head impacts: a preliminary report. In: Proceedings of the 1995 International IRCOBI Conference on the Biomechanics of Impact. September 13-15, 1995; Brunnen, Switzerland.199-216.
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.
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.
2011	Li Y, Zhang L, Kallakuri S, Zhou R, Cavanaugh JM. Injury predictors for traumatic axonal injury in a rodent head impact acceleration model. Stapp Car Crash J. 2011;55:25-47.
2014	Giordano C, Kleiven S. Evaluation of axonal strain as a predictor for mild traumatic brain injuries using finite element modeling. Stapp Car Crash J. November 2014;58:29-61.
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.
2004	Stone JR, Okonkwo DO, Dialo AO, Rubin DG, Mutlu LK, Povlishock JT, Helm GA. Impaired axonal transport and altered axolemmal permeability occur in distinct populations of damaged axons following traumatic brain injury. Exp Neurol. November 2004;190(1):59-69.
1989	Adams JH, Doyle D, Ford I, Gennarelli TA, Graham DI, McLellan DR. Diffuse axonal injury in head injury: definition, diagnosis and grading. Histopathology. July 1989;15(1):49-59.
2009	Taylor PA, Ford CC. Simulation of blast-induced early-time intracranial wave physics leading to traumatic brain injury. J Biomech Eng. June 2009;131(6):061007.
1991	Dixon CE, Clifton GL, Lighthall JW, Yaghmai AA, Hayes RL. A controlled cortical impact model of traumatic brain injury in the rat. J Neurosci Meth. October 1991;39(3):253-262.
1985	Jane JA, Steward O, Gennarelli T. Axonal degeneration induced by experimental noninvasive minor head injury. J Neurosurg. January 1985;62(1):96-100.
1989	Gennarelli TA, Thibault LE, Tipperman R, Tomei G, Sergot R, Brown M, Maxwell WL, Graham DI, Adams JH, Irvine A, Gennarelli LM, Duhaime AC, Boock R, Greenberg J. Axonal injury in the optic nerve: a model simulating diffuse axonal injury in the brain. J Neurosurg. August 1989;71(2):244-253.
1994	Foda MAA-E, Marmarou A. A new model of diffuse brain injury in rats, II: morphological characterization. J Neurosurg. February 1994;80(2):301-313.
2000	Smith DH, Nonaka M, Miller R, Leoni M, Chen X-H, Alsop D, Meaney DF. Immediate coma following inertial brain injury dependent on axonal damage in the brainstem. J Neurosurg. August 2000;93(2):315-322.
1988	Lighthall JW. Controlled cortical impact: a new experimental brain injury model. J Neurotrauma. 1988;5(1):1-15.
1994	Pettus EH, Christman CW, Giebel ML, Povlishock JT. Traumatically induced altered membrane permeability: its relationship to traumatically induced reactive axonal change. J Neurotrauma. October 1994;11(5):507-522.
1995	Povlishock JT, Christman CW. Traumatically induced axonal injury in animals and humans: a review of current thoughts. J Neurotrauma. June 1995;12(3):555-564.
1997	Maxwell WL, Povlishock JT, Graham DL. A mechanistic analysis of nondisruptive axonal injury: a review. J Neurotrauma. January 1997;14(7):419-440.
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.
2001	Cernak I, Wang Z, Jiang J, Bian X, Savic J. Ultrastructural and functional characteristics of blast injury-induced neurotrauma. J Trauma. April 2001;50(4):695-706.
2002	Shaw NA. The neurophysiology of concussion. Prog Neurobiol. July 2002;67(4):281-344.
2014	Dastgheyb RM. Mechanisms of Axonal Pathology in the Context of Traumatic Brain Injury [PhD thesis]. Drexel University; November 2014.
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.
2014	Patton DA. The Biomechanical Determinants of Sports-Related Concussion: Finite Element Simulations of Unhelmeted Head Impacts to Evaluate Kinematic and Tissue-Level Predictors of Injury and Investigate the Design Implications for Soft-Shell Headgear [PhD thesis]. University of New South Wales; March 2014.
1988	Galbraith JA. The Effects of Mechanical Loading on the Electrophysiology of the Squid Giant Axon [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 1988.
1997	Arbogast KB. A Characterization of the Anisotropic Mechanical Properties of the Brainstem [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 1997.
1998	Bain AC. In Vivo Mechanical Thresholds for Morphological and Functional Axonal Injury [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 1998.
2015	Allison MA. The Performance of Helmet-Based Kinematic Measurement Systems: Importance for Mild Traumatic Brain Injury Prevention [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2015.
1995	Zhou C. Finite Element Modeling of Impact Response of an Inhomogeneous Brain [PhD thesis]. Detroit, MI: Wayne State University; 1995.
2001	Zhang L. Computational Biomechanics of Traumatic Brain Injury: An Investigation of Head Impact Response and American Football Head Injury [PhD thesis]. Detroit, MI: Wayne State University; May 2001.
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.
2007	Hardy WN. Response of the Human Cadaver Head to Impact [PhD thesis]. Detroit, MI: Wayne State University; December 2007.
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.