Traumatic Brain Injury (TBI) has been the termed the “signature injury” in wounded soldiers in recent military operations . Evidence has shown a strong association between TBI and blast loading to the head due to exposure to explosive events [2, 3]. Head injury mechanisms in a primary blast environment remain elusive and are the subject of much speculation and hypotheses. However, brain injury mechanisms have traditionally been attributed to either a direct impact or a rapid head acceleration or deceleration. Extensive research has been performed regarding the effects of blunt trauma and inertial loading on head injuries [4, 5]. Direct impacts to the head can largely be described based on linear acceleration measurements that correlate to skull fracture and focal brain injuries . Computational head modeling of blunt impact events has shown that the linear acceleration response correlates well with increases in brain pressure . Intracranial pressure, therefore, has been one of the major quantities investigated for correlation to blast induced TBI injury mechanisms [8–14].
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Experimental Determination of Pressure Wave Transmission to the Brain During Head-Neck Blast Tests
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Ott, K, Voo, L, Merkle, A, Iwaskiw, A, Wickwire, A, Wester, B, & Armiger, R. "Experimental Determination of Pressure Wave Transmission to the Brain During Head-Neck Blast Tests." Proceedings of the ASME 2013 Summer Bioengineering Conference. Volume 1A: Abdominal Aortic Aneurysms; Active and Reactive Soft Matter; Atherosclerosis; BioFluid Mechanics; Education; Biotransport Phenomena; Bone, Joint and Spine Mechanics; Brain Injury; Cardiac Mechanics; Cardiovascular Devices, Fluids and Imaging; Cartilage and Disc Mechanics; Cell and Tissue Engineering; Cerebral Aneurysms; Computational Biofluid Dynamics; Device Design, Human Dynamics, and Rehabilitation; Drug Delivery and Disease Treatment; Engineered Cellular Environments. Sunriver, Oregon, USA. June 26–29, 2013. V01AT10A006. ASME. https://doi.org/10.1115/SBC2013-14834
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