Development of motor system dysfunction following whiplash injury

&NA; Dysfunction in the motor system is a feature of persistent whiplash associated disorders. Little is known about motor dysfunction in the early stages following injury and of its progress in those persons who recover and those who develop persistent symptoms. This study measured prospectively, motor system function (cervical range of movement (ROM), joint position error (JPE) and activity of the superficial neck flexors (EMG) during a test of cranio‐cervical flexion) as well as a measure of fear of re‐injury (TAMPA) in 66 whiplash subjects within 1 month of injury and then 2 and 3 months post injury. Subjects were classified at 3 months post injury using scores on the neck disability index: recovered (<8), mild pain and disability (10–28) or moderate/severe pain and disability (>30). Motor system function was also measured in 20 control subjects. All whiplash groups demonstrated decreased ROM and increased EMG (compared to controls) at 1 month post injury. This deficit persisted in the group with moderate/severe symptoms but returned to within normal limits in those who had recovered or reported persistent mild pain at 3 months. Increased EMG persisted for 3 months in all whiplash groups. Only the moderate/severe group showed greater JPE, within 1 month of injury, which remained unchanged at 3 months. TAMPA scores of the moderate/severe group were higher than those of the other two groups. The differences in TAMPA did not impact on ROM, EMG or JPE. This study identifies, for the first time, deficits in the motor system, as early as 1 month post whiplash injury, that persisted not only in those reporting moderate/severe symptoms at 3 months but also in subjects who recovered and those with persistent mild symptoms.

[1]  S. Mior,et al.  The Neck Disability Index: a study of reliability and validity. , 1991, Journal of manipulative and physiological therapeutics.

[2]  T. Jessell PAIN , 1982, The Lancet.

[3]  Lars Arendt-Nielsen,et al.  Headache, Neck Pain, and Neck Mobility After Acute Whiplash Injury: A Prospective Study , 2001, Spine.

[4]  J. Ro,et al.  Modulation of jaw muscle spindle afferent activity following intramuscular injections with hypertonic saline , 2001, Pain.

[5]  H. Johansson,et al.  Influences on the fusimotor-muscle spindle system from chemosensitive nerve endings in cervical facet joints in the cat: possible implications for whiplash induced disorders , 2001, Pain.

[6]  B. Larsson,et al.  Chronic pain and difficulty in relaxing postural muscles in patients with fibromyalgia and chronic whiplash associated disorders. , 2001, The Journal of rheumatology.

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

[8]  Maarten J. IJzerman,et al.  Cervical Muscle Dysfunction in Chronic Whiplash-Associated Disorder Grade 2: The Relevance of the Trauma , 2002, Spine.

[9]  G. Nappi,et al.  Whiplash injuries: clinical picture and diagnostic work-up. , 2000, Clinical and experimental rheumatology.

[10]  R. Mayou,et al.  Outcome of 'whiplash' neck injury. , 1996, Injury.

[11]  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.

[12]  P. Loisel,et al.  Physical Impairments in Cervicogenic Headache: Traumatic Vs. Nontraumatic Onset , 2001, Cephalalgia : an international journal of headache.

[13]  R Merletti,et al.  Location of innervation zones of sternocleidomastoid and scalene muscles – a basis for clinical and research electromyography applications , 2002, Clinical Neurophysiology.

[14]  M. Revel,et al.  Longus colli has a postural function on cervical curvature , 2005, Surgical and Radiologic Anatomy.

[15]  Maarten J. IJzerman,et al.  Cervical Muscle Dysfunction in the Chronic Whiplash Associated Disorder Grade II (WAD-II) , 2000, Spine.

[16]  Gwendolen Jull,et al.  Deep Cervical Flexor Muscle Dysfunction in Whiplash , 2000 .

[17]  S. Hodges,et al.  Whiplash: a review of a commonly misunderstood injury. , 2001, The American journal of medicine.

[18]  M. Sturzenegger,et al.  Long‐Term Outcome after Whiplash Injury: A 2‐Year Follow‐Up Considering Features of Injury Mechanism and Somatic, Radiologic, and Psychosocial Findings , 1995, Medicine.

[19]  E. Schomburg,et al.  Interaction between cutaneous and muscle afferent activity in polysynaptic reflex pathways: a human experimental study , 2000, Pain.

[20]  J. Fritz,et al.  A Comparison of Fear-Avoidance Beliefs in Patients With Lumbar Spine Pain and Cervical Spine Pain , 2001, Spine.

[21]  J. Fritz,et al.  The role of fear-avoidance beliefs in acute low back pain: relationships with current and future disability and work status , 2001, Pain.

[22]  H. Vernon The Neck Disability Index:: Patient Assessment and Outcome Monitoring in Whiplash , 1996 .

[23]  P. Wall,et al.  Relative effectiveness of C primary afferent fibers of different origins in evoking a prolonged facilitation of the flexor reflex in the rat , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[24]  P. Watson,et al.  Evidence for the Role of Psychological Factors in Abnormal Paraspinal Activity in Patients with Chronic Low Back Pain , 1997 .

[25]  R. Ferrari Whiplash--review of a commonly misunderstood injury. , 2002, The American journal of medicine.

[26]  S. Mense,et al.  Discharge behaviour of feline gamma-motoneurones following induction of an artificial myositis , 1991, Pain.

[27]  G. Jull,et al.  Cervical Range of Motion Discriminates Between Asymptomatic Persons and Those With Whiplash , 2001, Spine.

[28]  H Heikkilä,et al.  Cervicocephalic kinesthetic sensibility in patients with whiplash injury. , 1996, Scandinavian journal of rehabilitation medicine.

[29]  Julia Treleaven,et al.  Dizziness and unsteadiness following whiplash injury: characteristic features and relationship with cervical joint position error. , 2003, Journal of rehabilitation medicine.

[30]  G. Jull,et al.  Cervical mobilisation: concurrent effects on pain, sympathetic nervous system activity and motor activity. , 2001, Manual therapy.

[31]  Pascal Madeleine,et al.  Shoulder muscle co-ordination during chronic and acute experimental neck-shoulder pain. An occupational pain study , 1999, European Journal of Applied Physiology and Occupational Physiology.

[32]  Geert Crombez,et al.  Pain-related fear is more disabling than pain itself: evidence on the role of pain-related fear in chronic back pain disability , 1999, Pain.

[33]  C. Richardson,et al.  Long-Term Effects of Specific Stabilizing Exercises for First-Episode Low Back Pain , 2001, Spine.

[34]  M J Pearcy,et al.  New method for the non-invasive three-dimensional measurement of human back movement. , 1989, Clinical biomechanics.

[35]  I. Marschner,et al.  A Randomized Controlled Trial of Exercise and Manipulative Therapy for Cervicogenic Headache , 2002, Spine.

[36]  C. André-deshays,et al.  Cervicocephalic kinesthetic sensibility in patients with cervical pain. , 1991, Archives of physical medicine and rehabilitation.

[37]  M. Pearcy,et al.  Three-dimensional analysis of active cervical motion: the effect of age and gender. , 1996, Clinical biomechanics.

[38]  M. Revel,et al.  Changes in cervicocephalic kinesthesia after a proprioceptive rehabilitation program in patients with neck pain: a randomized controlled study. , 1994, Archives of physical medicine and rehabilitation.

[39]  P. Hodges,et al.  Fear of low back pain delays postural activation of transversus abdominis in healthy subjects , 2002 .

[40]  P. Hodges,et al.  Altered trunk muscle recruitment in people with low back pain with upper limb movement at different speeds. , 1999, Archives of physical medicine and rehabilitation.

[41]  M. Bankes,et al.  The behavioural response to whiplash injury. , 1998, The Journal of bone and joint surgery. British volume.