Sage Journals: Discover world-class research

Abstract

The cervical spine exhibits the greatest range of motion among the spinal segments due to the complex interaction of its triplanar components of movement. As a result, measurement of movements of the cervical spine and of the various orthoses used in cervical spine injuries has proved difficult with no one method proving satisfactory.

This paper uses the Zebris ultrasonic three-dimensional motion analysis system to measure flexion, extension, range of lateral bending, and range of axial rotation in five similar male and five similar female subjects with no history of neck injuries. The subjects were tested unrestrained and in soft and hard collars, as well as in Philadelphia, Miami J, and Minerva orthoses.

Results show that the Minerva is the most stable construct for restriction of movement in all planes in both groups. Looking at these results allows ranking of the measured orthoses in order of their three-dimensional stability.

Furthermore, by presenting reproducible data incorporating the composite triplanar movements of the cervical spine, thus allowing comparative analysis of the studied orthoses, they propose the Zebris as a reliable, repeatable, and safe method of measurement of cervical spine motion with low intersubject variability.

Keywords

cervical spine motion analysis cervical orthoses

Get full access to this article

View all access options for this article.

References

Calliet

Neck and arm pain, 1964, vol. 6 (Davis, Philadelphia, Pennsylvania).

Lohr

Untersuchungen uber die Beweglichkeit der Wirbelsaule nach vorn und nach hinten

Munchner medizinische Wochenschrift, 1890, 5, 73.

Johnson

R. M.

Hart

D. L.

Simmons

E. F.

Cervical orthoses. A study comparing their effectiveness restricting cervical motion in normal subjects

J. Bone Jt Surg., 1977, 59A (3), 332–339.

Dvorak

Panjabi

M. M.

Grob

Clinical validation of functional flexion/extension radiographs of the cervical spine

Spine, 1993, 18 (1), 120–127.

Hartman

J. T.

Palumbo

Hill

B. J.

Cineradiography of the braced normal cervical spine. A comparative study of five commonly used cervical orthoses

Clin. Orthop., 1975, 109, 97–102.

Hino

Abumi

Kanayama

Dynamic motion analysis of normal and unstable cervical spines using cineradiography. An in vivo study

Spine, 1999, 24 (2), 163–168.

Lim

T. H.

Eck

J. C.

H. S.

A noninvasive, three-dimensional spinal motion analysis method

Spine, 1997, 22 (17), 1996–2000.

Karhu

J. O.

Parkkola

R. K.

Komu

M. E.

Kinematic magnetic resonance imaging of the upper cervical spine using a novel positioning device

Spine, 1999, 24 (19), 2046–2056.

Manix

Gunderson

M. R.

Garth

G. C.

Comparison of prehospital cervical immobilization devices using video and electromyography

Prehospital Disaster Medicine, 1995, 10 (4), 232–237.

10.

Mayer

Brady

Bovasso

Noninvasive measurement of cervical tri-planar motion in normal subjects

Spine, 1993, 18 (15), 2191–2195.

11.

Panjabi

M. M.

Crisco

J. J.

Vasavada

Mechanical properties of the human cervical spine as shown by three-dimensional load-displacement curves

Spine, 2001, 26 (24), 2692–2700.

12.

Feipel

Rondelet

Le Pallec

Normal global motion of the cervical spine: An electrogoniometric study

Clin. Biomech. (Bristol, Avon), 1999, 14 (7), 462–470.

13.

Ordway

N. R.

Seymour

Donelson

R. G.

Cervical sagittal range-of-motion analysis using three methods. Cervical range-of-motion device, 3space, and radiography

Spine, 1997, 22 (5), 501–508.

14.

Pearson

N. D.

Walmsley

R. P.

Trial into the effects of repeated neck retractions in normal subjects

Spine, 1995, 20 (11), 1245–1250.

15.

Castro

W. H.

Sautmann

Schilgen

Noninvasive three-dimensional analysis of cervical spine motion in normal subjects in relation to age and sex. An experimental examination

Spine, 2000, 25 (4), 443–449.

16.

Cooper

P. R.

Maravilla

K. R.

Sklar

F. H.

Halo immobilization of cervical spine fractures. Indications and results

J. Neurosurg., 1979, 50 (5), 603–610.

17.

Kameyama

Ogawa

Suga

Asymptomatic brain abscess as a complication of halo-orthosis: Report of a case and review of the literature

J. Orthop. Sci., 1999, 4 (1), 39–41.

18.

Goodman

M. L.

Nelson

P. B.

Brain abscess complicating the use of a halo orthosis

Neurosurg., 1987, 20 (1), 27–30.

19.

Garfin

S. R.

Botte

M. J.

Triggs

K. J.

Subdural abscess associated with halo-pin traction

J. Bone Jt Surg., 1988, 70A (9), 1338–1340.

20.

Askins

Eismont

F. I.

Efficacy of five cervical orthoses in restricting cervical motion. A comparison study

Spine, 1997, 22 (11), 1193–1198.

The use of the Zebris motion analysis system for measuring cervical spine movements in vivo

Abstract

Abstract

Keywords

Get full access to this article

References