Anatomical gender differences in cervical vertebrae of size-matched volunteers

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Stemper, Brian D.^1,2; Yoganandan, Narayan^1,2; Pintar, Frank A.^1,2; Maiman, Dennis J.^1,2; Meyer, Mark A.^1,2; DeRosia, John^1,2; Shender, Barry S.³; Paskoff, Glenn³

Anatomical gender differences in cervical vertebrae of size-matched volunteers

Spine. January 15, 2008;33(2):E44-E49

©2008 Lippincott Williams & Wilkins

Affiliations

¹Department of Neurosurgery, Medical College of Wisconsin

²Department of Veterans Affairs Medical Center, Milwaukee, WI

³Naval Air Systems Command, Patuxent River, MD
Abstract and keywords

Study Design: Clinical literature consistently identifies women as more susceptible to trauma-related neck pain, commonly resulting from soft tissue cervical spine injury. Structural gender differences may explain altered response to dynamic loading in women leading to increased soft tissue distortion and greater injury susceptibility.

Objective: Identify anatomic gender differences in cervical spinal geometry that contribute to decreased column stability in women. Summary of Background Data. Previous studies investigating male and female vertebral and vertebral body geometry demonstrated female vertebral dimensions were smaller. However, populations were not size matched and parameters related to biomechanical stability were not reported.

Methods: Computed tomography scans of the cervical spine were obtained from size-matched young healthy volunteers. Geometrical dimensions were obtained at the C4 level and analysis of variance determined significant gender differences.

Results: Two volunteer subsets were size matched based on sitting height and head circumference. All geometrical measures were greater in men for both subsets. Vertebral width and disc-facet depth were significantly greater in men. Additionally, segmental support area, combining interfacet width and disc-facet depth, was greater in men, indicating more stable intervertebral coupling.

Conclusion: Present results of decreased linear and areal cervical dimensions leading to decreased column stability may partially explain increased traumatic injury rates in women.

Keywords: cervical spine; gender; anatomy; CT; injuries; biomechanics
Links

DOI: 10.1097/BRS.0b013e318160462a

PubMed: 18197090

WoS: 000253542500024
History

Received: 2007-02-26

Revised: 2007-05-02

Revised: 2007-06-08

Revised: 2007-07-05

Accepted: 2007-09-10

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2015	Brolin K, Östh J, Svensson M, Sato F, Ono K, Linder A, Kullgren A. Aiming for an average female virtual human body model for seat performance assessment in rear-end impacts. In: Proceedings of the 24th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 8-11, 2015; Gothenburg, Sweden.
2010	Carlsson A, Siegmund GP, Linder A, Svensson M. Motion of the head and neck of female and male volunteers in rear impact car-to-car tests at 4 and 8 km/h. In: Proceedings of the 2010 International IRCOBI Conference on the Biomechanics of Impact. September 15-17, 2010; Hannover, Germany.29-39.
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2013	Parenteau CS, Zuby D, Brolin KB, Svensson MY, Palmertz C, Wang SC. Restrained male and female occupants in frontal crashes: are we different? In: Proceedings of the 2013 International IRCOBI Conference on the Biomechanics of Injury. September 11-13, 2013; Gothenburg, Sweden.803-817.
2018	John JD, Kumar GS, Arun MWJ, Yoganandan N. Which geometric variations in the cervical spine influence vertebral rotations under combined loading? In: Proceedings of the 2018 International IRCOBI Conference on the Biomechanics of Injury. September 12-14, 2018; Athens, Greece.150-156.
2019	Choi H, Baisden J, Braza D, Yoganandan N. Quantified segmental geometry and curvature of women-specific neck muscles: upright MRI study. In: Proceedings of the 2019 International IRCOBI Conference on the Biomechanics of Injury. September 11-13, 2019; Florence, Italy.119-120.
2018	John JD, Yoganandan N, Arun MWJ, Saravana Kumar G. Contribution of forces and morphology to segmental rotation during combined loading of cervical spine: investigation using parametric finite element models. In: Proceedings of the 2018 International IRCOBI Asia Conference on the Biomechanics of Injury. April 25-28, 2018; Lonavala, India.72-75.
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2008	Hedenstierna S. 3D Finite Element Modeling of Cervical Musculature and Its Effect on Neck Injury Prevention [PhD thesis]. Sweden, Royal Institute of Technology; 2008.
2009	DeRosia JJ. Role of Gender and Size in Biomechanics of Rear Impact Marquette University; May 2009.
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2020	Shen D. Investigation of Whiplash Associated Disorders Using Finite Element Neck Models With Active Musculature in Frontal, Rear and Lateral Impact [Master's thesis]. University of Waterloo; 2020.