The tolerance of the nasal bone to blunt impact

Cormier, Joseph<sup>1</sup>; Manoogian, Sarah<sup>1</sup>; Bisplinghoff, Jill<sup>2</sup>; Rowson, Steve<sup>2</sup>; Santago, Anthony<sup>2</sup>; McNally, Craig<sup>2</sup>; Duma, Stefan<sup>2</sup>; Bolte, IV, John<sup>3</sup>

Affiliations

²Virginia Tech – Wake Forest Center for Injury Biomechanics

³The Ohio State University Transportation Research Center

Abstract

The nasal bone is among the most frequently broken facial bone due to all types of trauma and is the most frequently fractured facial bone due to motor vehicle collisions. This study reports the results of anteriorposterior impacts performed on male cadavers using a free-falling impactor with a flat impacting surface. The force at fracture onset was determined using an acoustic emission sensor. These non-censored data were utilized in parametric and non-parametric techniques to determine a relationship between applied force and fracture risk. Based on these analyses a 50% risk of fracture corresponded to an applied force of approximately 450 to 850 N. There was no correlation between fracture force and anthropometric measures of the nasal bone. Interestingly, age had a statistically significant relationship with the risk of nasal bone fracture. This study demonstrates the need for a non-censored measure of fracture occurrence when evaluating structures that can continue to support load after fracture onset.

Links

PubMed: 21050587

PubMedCentral: PMC3242551

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Cited By (4)

Year	Entry
2014	Van Toen C, Street J, Oxland TR, Cripton PA. Acoustic emission signals from injuries of three‐vertebra specimens. In: Proceedings of the 2014 International IRCOBI Conference on the Biomechanics of Injury. September 10-12, 2014; Berlin, Germany.176-185.
2019	Zhai X, Gao J, Nie Y, Guo Z, Kedir N, Claus B, Sun T, Fezzaa K, Xiao X, Chen WW. Real-time visualization of dynamic fractures in porcine bones and the loading-rate effect on their fracture toughness. J Mech Phys Solids. October 2019;(131):358-371.
2023	Saenz N. Fracture Variations in Survivable Versus Fatal Craniofacial Blunt Force Trauma Associated With Intimate Partner Violence [Master's thesis]. Boston University; 2023.
2013	Van Toen CY. Biomechanics of Cervical Spine and Spinal Cord Injury Under Combined Axial Compression and Lateral Bending Loading [PhD thesis]. Vancouver, BC: University of British Columbia; December 2013.