The measurement of intracranial pressure and brain displacement due to short-duration dynamic overpressure loading

Autor: Robert S. Armiger, Kyle A. Ott, A. C. Wickwire, C. M. Carneal, Andrew C. Merkle, Vanessa D. Alphonse, Liming Voo, A. S. Iwaskiw
Rok vydání: 2017
Předmět:
Zdroj: Shock Waves. 28:63-83
ISSN: 1432-2153
0938-1287
DOI: 10.1007/s00193-017-0759-z
Popis: The experimental measurement of biomechanical responses that correlate with blast-induced traumatic brain injury (bTBI) has proven challenging. These data are critical for both the development and validation of computational and physical head models, which are used to quantify the biomechanical response to blast as well as to assess fidelity of injury mitigation strategies, such as personal protective equipment. Therefore, foundational postmortem human surrogate (PMHS) experimental data capturing the biomechanical response are necessary for human model development. Prior studies have measured short-duration pressure transmission to the brain (Kinetic phase), but have failed to reproduce and measure the longer-duration inertial loading that can occur (Kinematic phase). Four fully instrumented PMHS were subjected to short-duration dynamic overpressure in front-facing and rear-facing orientations, where intracranial pressure (ICP), global head kinematics, and brain motion (as measured by high-speed X-ray) with respect to the skull were recorded. Peak ICP results generally increased with increased dose, and a mirrored pressure response was seen when comparing the polarity of frontal bone versus occipital bone ICP sensors. The head kinematics were delayed when compared to the pressure response and showed higher peak angles for front-facing tests as compared to rear-facing. Brain displacements were approximately 2–6 mm, and magnitudes did not change appreciably between front- and rear-facing tests. These data will be used to inform and validate models used to assess bTBI.
Databáze: OpenAIRE
Externí odkaz: