@article{ref1,
title="Primate as a model for crash injury",
journal="Proceedings: Stapp Car Crash Conference",
year="1975",
author="Kazarian, L. E.",
volume="19",
number="",
pages="931-963",
abstract="A number of anesthetized rhesus monkeys, baboons, and chimpanzees were subjected to a plus G//z rectangular deceleration-time history. The parameters of deceleration versus average time duration were plotted as a function of spinal trauma to come up with a series of sensitivity curves based on spinal injury for three families of sub-human primates. The locus, distribution, type, and severity of vertebral body fracture was distinguished on post-impact roentgenographs. The primates were euthanized and the process of documenting and interpreting spinal trauma was repeated following necropsy and water maceration of the soft tissue. The mechanics of vertebral injury were identified. Normal skeletal geometry and proportionate torso kinesiology of the rhesus monkey, baboon, and chimpanzee and man were compared. The peculiarities and consistencies in injury distribution and their variations were interpreted in terms of distinctive vertebral morphology and functional kinesiology of each animal model. The distinguishing variations in injury patterns and their distribution was related to the scatter of human vertebral injury as reported in aircraft escape system accelerations, crash decelerations, and clinical statistics.   <p>Language: en</p>",
language="en",
issn="0585-086X",
doi="",
url="http://dx.doi.org/"
}