Applications of experimental head injury research

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Douglass, John M.¹; Nahum, Alan M.¹; Roberts, Sanford B.¹

Applications of experimental head injury research

Proceedings of the 12th Stapp Car Crash Conference

Affiliations

¹School of Medicine and Engineering, University of California, Los Angeles
Abstract

The types and mechanisms of head injury are reviewed, and then the findings of a UCLA study on the electrophysiology of primate concussion is presented.

It was found that g loadings, as measured by a triaxial accelerometer attached to the skull of an impacted monkey, correlated well with severity of concussion. Deep and superficial cerebral electrodes were implanted to monitor electroencephalographic and impedance changes after concussion.

Resistance dropped and capacitance rose in the impedance electrodes in direct proportion to the severity of concussion. Deep electroencephalographic recordings showed a high amplitude low frequency charfge in the reticular formation areas after impact. Superficial electroencephalographic recordings did not correlate with clinical states.

Applications of these data are presented as they relate to the prevention and treatment of head injury.
Links

DOI: 10.4271/680786

SAE: 680786

Cited Works (7)

Year	Entry
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1967	Ommaya AK, Yarnell P, Hirsch AE, Harris EH. Scaling of experimental data on cerebral concussion in sub-human primates to concussion threshold for man. In: Proceedings of the 11th Stapp Car Crash Conference. October 10-11, 1967; Anaheim, CA. Warrendale, PA: Society of Automotive Engineers:73-80. SAE 670906.
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Cited By (9)

Year	Entry
1970	Slattenschek A, Tauffkirchen W. Critical evaluation of assessment methods for head impact applied in appraisal of brain injury hazard, in particular in head impact on windshields = Kritische Betrachtung der Bewertungsverfahren von Stössen Gegen den Menschlichen Kopf, die zur Beurteilung der Gefahr einer Hirnverletzung, Insbesondere beim Aufprall des Kopfes Gegen die Windschutzscheibe, Anwendung Finden. In: International Automotive Safety Conference Compendium. 1970. SAE 700426.
1972	Goldsmith W. Biomechanics of head injury. In: Fung YC, Perrone N, Anliker M, eds. Biomechanics: Its Foundations and Objectives. Symposium on Biomechanics, its Foundations and Objectives; July 29-31, 1970. Englewood Cliff, NJ: Inc., Prentice-Hall International; 1972:585-634.
1972	Metz LD, Ruhl RL. On the influence of crash helmets on whiplash injury to racing car drivers. In: 16th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). October 19-21, 1972; Chapel Hill, NC.149-161.
1978	Rau H. Proposal for a valuation process for the assessment for biomechanical experiments. In: Proceedings of the 1978 International IRCOBI Conference on the Biomechanics of Impact. September 12-13, 1978; Lyon, France.41-52.
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.
2007	Fijalkowski RJ, Stemper BD, Pintar FA, Yoganandan N, Gennarelli TA. Influence of angular acceleration duration on functional outcomes following mild diffuse brain injury. In: Proceedings of the 2007 International IRCOBI Conference on the Biomechanics of Impact. September 19-21, 2007; Maastricht, The Netherlands.161-171.
1990	Lee E-S. A Large-Strain, Transient Dynamic Analysis of Head Injury Problems by the Finite Element Method [PhD thesis]. Atlanta, GA: Georgia Institute of Technology; October 1990.
2008	Fijalkowski RJ. Rotational Acceleration Pulse Characteristics Affect Mild Diffuse Brain Injury Severity [PhD thesis]. Marquette University; May 2008.
1983	Morrison WE. Calibration and Utilization of an Instrumented Football Helmet for the Monitoring of Impact Accelerations [PhD thesis]. Philadelphia, PA: University of Pennsylvania; March 1983.