Child neck strength characteristics using an animal model

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Pintar, Frank¹; Mayer, Russell¹; Yoganandan, Narayan¹; Sun, Emily²

Child neck strength characteristics using an animal model

Stapp Car Crash J. 2000;44:77-83

Affiliations

¹Medical College of Wisconsin

²VA Medical Center

³National Highway Traffic Safety Administration, US DOT
Abstract

The purpose of this study was to determine neck strength characteristics of children indirectly using scaling relationships through a caprine animal model. Because of the necessity to evaluate airbag designs for injury risk to the out- of-position child, a strong foundation of experimental data is needed to obtain appropriate tolerance values. Cadaver caprine cervical spines of different ages were tested mechanically in non-destructive bending and destructive tensile modes. Injuries induced in destructive testing such as endplate failure and ligament tears were consistent with clinical observations. Specimens demonstrated statistically significant increased strength characteristics with age. Scaling relationships were developed with respect to the adult specimens. For the tensile failure load the scaling percentages were 78%, 38%, 20%, and 12% for the twelve-, six-, three-, and one-year-old, respectively. The tensile stiffness parameter yielded slightly higher scale factors of 85%, 54%, 23%, and 17%, whereas the bending stiffness parameter resulted in 62%, 57%, 15%, and 11% values for twelve-, six-, three-, and one-year-old age groups, respectively. The caprine model therefore, suggests that tolerance values for the one-and three- year-old may be lower than the values obtained using current scaling techniques.
Links

PubMed: 17458719

SAE: 2000-01-SC06

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2013	Lopez-Valdes FJ. Mechanics of the Pediatric Thoracic Spine and Its Role in the Kinematics of the Head in Automotive Frontal Impacts [PhD thesis]. Charlottesville, VA: University of Virginia; May 2013.
2016	Shaw C. Identifying Axonal Injury in Cervical Facet Joint Capsules as a Result of High-Rate Tensile Stretch in an in-Vivo Goat Model [Master's thesis]. University of Windsor; 2016.
2009	Azar NO. Muscular Response to Tensile Loading of the Cervical Facet Joint Capsule: A Potential Whiplash Pain Mechanism [PhD thesis]. Detroit, MI: Wayne State University; May 2009.
2017	Yaek JL. Biofidelity Assessment of 6-Year-Old Anthropometric Test Devices (ATDs) and Scaling Laws in Lateral Impact [PhD thesis]. Detroit, MI: Wayne State University; 2017.