Three-dimensional isometric strength of neck muscles in humans

Vasavada, Anita N.; Li, Siping; Delp, Scott L.

Affiliations

¹Departments of Biological Systems Engineering and Veterinary and Comparative Anatomy, Pharmacology, and Physiology, Washington State University, Pullman, Washington

²Sensory Motor Performance Program, Rehabilitation Institute of Chicago, Chicago, Illinois

³Department of Mechanical Engineering, Stanford University, Stanford, California

Abstract and keywords

Study Design: Three-dimensional moments were measured experimentally during maximum voluntary contractions of neck muscles in humans.

Objectives: To characterize the maximum moments with attention paid to subject size and gender, to calculate moments at different locations in the neck, and to quantify the relative magnitudes of extension, flexion, lateral bending, and axial rotation moments.

Summary of Background Data: Few studies of neck strength have measured moments in directions other than extension, and it is difficult to compare results among studies because moments often are resolved at different locations in the cervical spine. Further, it is not clear how subject size, gender, and neck geometry relate to variations in the moment-generating capacity of neck muscles.

Methods: Maximum moments were measured in 11 men and 5 women with an average age of 31 years (range, 20–42 years). Anatomic landmarks were digitized to resolve moments at different locations in the cervical spine.

Results: When moments were resolved about axes through the midpoint of the line between the C7 spinous process and the sternal notch, the maximum moments were as follows: extension (men, 52 ± 11 Nm; women, 21 ± 12 Nm), flexion (men, 30 ± 5 Nm; women, 15 ± 4 Nm), lateral bending (men, 36 ± 8 Nm; women, 16 ± 8 Nm), and axial rotation (men 15 ± 4; women, 6 ± 3) Nm). The magnitudes of extension, flexion, and lateral bending moments decreased linearly with vertical distance from the lower cervical spine to the mastoid process.

Conclusions: Moments in three dimensions were quantified with regard to subject size and location along the cervical spine. These data are needed to characterize neck strength for biomechanical analysis of normal and pathologic conditions

Keywords: human, muscle, neck, strength

Links

DOI: 10.1097/00007632-200109010-00018

PubMed: 11568704

WoS: 000170914000015

History

Received: 2000-11-13

Accepted: 2001-01-12

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2007	Siegmund GP, Blouin J-S, Brault JR, Hedenstierna S, Inglis JT. Electromyography of superficial and deep neck muscles during isometric, voluntary, and reflex contraction. J Biomech Eng. February 2007;129(1):66-77.
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2005	Chancey VC. Strength of the Human Neck: Understanding the Contributions of the Ligamentous and Muscular Spine in Tension and Bending [PhD thesis]. Duke University; 2005.
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2009	DeRosia JJ. Role of Gender and Size in Biomechanics of Rear Impact Wilwaukee, WI: Marquette University; May 2009.
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2014	De Bruijn E. Isometric and Dynamic Control of Neck Muscles: Reflexive Contributions and Muscle Synergies [PhD thesis]. Delft, The Netherlands: Technische Universiteit Delft; 2014.
2014	Newell R. Are Inversion, Posture, Motion and Muscle Effects Important to Spinal Alignment? [PhD thesis]. Vancouver, BC: University of British Columbia; April 2014.
2019	Fice JB. Neuromechanics of Neck Muscles: Implications for Whiplash Injury [PhD thesis]. Vancouver, BC: University of British Columbia; April 2019.
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2012	Dawson RM. Comparison of Adult and Pediatric Neck Muscle Strength and Response [PhD thesis]. Detroit, MI: Wayne State University; August 2012.
2011	Zheng L. Sex Differences in Human Neck Musculoskeletal Biomechanics and Modeling [PhD thesis]. Pullman, WA: Washington State University; May 2011.
2012	Nevins DD. Sensitivity of Neck Model Estimates to Variation in Vertebral Kinematics [Master's thesis]. University of Texas at Austin; December 2012.
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