Trapped in the neutral zone: another symptom of whiplash-associated disorder?

Instability of the cervical spine following whiplash trauma has been demonstrated in a number of studies. We hypothesized that, in patients with whiplash-associated disorder, rotation of the head would be accompanied by an earlier onset of neck muscle activity to compensate for intrinsic instability. The aim of the study was to examine the range of motion (RoM) of the cervical spine and the onset and activity of the sternocleidomastoid (SCM) muscles during axial rotation, in healthy control subjects and in patients with chronic whiplash-associated disorder. Forty-eight control subjects (42% male) and 46 patients (33% male) with chronic whiplash-associated disorder (symptoms lasting longer than 3 months) were examined. Cervical axial RoM differed significantly (P=0.0001) between the groups, with the whiplash patients showing lower values (83°±30°) than the healthy controls (137°±19°). The whiplash patient group showed no evidence of the predicted earlier activation of SCM muscles. Many patients never reached the point in the RoM where SCM muscle activity rises steeply, as it does in the healthy controls (the 'elastic zone'), and their movements remained mostly within the region of low muscle activity (the 'neutral zone'). The whiplash patients appeared either unable or unwilling to drive the cervical spine into this region of high muscle activity, possibly because they were restricted by existing pain or fear of pain.

[1]  W. Verhagen,et al.  Whiplash injury. A clinical review with emphasis on neuro-otological aspects. , 1997, Clinical otolaryngology and allied sciences.

[2]  M. Panjabi The stabilizing system of the spine. Part I. Function, dysfunction, adaptation, and enhancement. , 1992, Journal of spinal disorders.

[3]  K. Harms-Ringdahl,et al.  Relationship Between Subjective Neck Disorders and Cervical Spine Mobility and Motion-Related Pain in Male Machine Operators , 1997, Spine.

[4]  C J Snijders,et al.  A biomechanical model for the analysis of the cervical spine in static postures. , 1991, Journal of biomechanics.

[5]  W. Spitzer,et al.  Scientific monograph of the Quebec Task Force on Whiplash-Associated Disorders: redefining "whiplash" and its management. , 1995, Spine.

[6]  M Arand,et al.  Stability Increase of the Lumbar Spine With Different Muscle Groups: A Biomechanical In Vitro Study , 1995, Spine.

[7]  K. Pettersson,et al.  Surgery for chronic symptoms after whiplash injury. Follow-up of 20 cases. , 1993, Acta orthopaedica Scandinavica.

[8]  W. Rauschning,et al.  Findings and Outcome in Whiplash‐Type Neck Distortions , 1994, Spine.

[9]  D. Grob,et al.  Clinical Validation of Functional Flexion/Extension Radiographs of the Cervical Spine , 1993, Spine.

[10]  M. Reiser,et al.  A review and methodologic critique of the literature refuting whiplash syndrome. , 1999, Spine.

[11]  C. Lantz,et al.  Meta-analysis of normative cervical motion. , 1999, Spine.

[12]  J Dvorak,et al.  Flexion, extension, and lateral bending of the upper cervical spine in response to alar ligament transections. , 1991, Journal of spinal disorders.

[13]  A. Mannion,et al.  Range of global motion of the cervical spine: intraindividual reliability and the influence of measurement device , 2000, European Spine Journal.

[14]  J. Cholewicki,et al.  Whiplash injuries and the potential for mechanical instability , 1998, European Spine Journal.

[15]  N. Bogduk,et al.  Cervical spine disorders. , 1998, Current opinion in rheumatology.

[16]  G. Yamaguchi,et al.  Three-dimensional head kinematics and cervical range of motion in the diagnosis of patients with neck trauma. , 1996, Journal of manipulative and physiological therapeutics.

[17]  M. Panjabi The stabilizing system of the spine. Part II. Neutral zone and instability hypothesis. , 1992, Journal of spinal disorders.

[18]  S M McGill,et al.  Passive stiffness of the human neck in flexion, extension, and lateral bending. , 1994, Clinical biomechanics.

[19]  S Siegler,et al.  Three‐Dimensional Flexibility Characteristics of the Human Cervical Spine In Vivo , 1998, Spine.

[20]  D Buch,et al.  Clinical validity and stability of active and passive cervical range of motion with regard to total and unilateral uniplanar motion. , 1999, Spine.

[21]  M M Panjabi,et al.  The onset and progression of spinal injury: a demonstration of neutral zone sensitivity. , 1992, Journal of biomechanics.

[22]  M. Richter,et al.  Whiplash-type neck distortion in restrained car drivers: frequency, causes and long-term results , 2000, European Spine Journal.

[23]  J Dvorak,et al.  Age and Gender Related Normal Motion of the Cervical Spine , 1992, Spine.

[24]  G. Bannister,et al.  Whiplash injury and surgically treated cervical disc disease. , 1993, Injury.