Top

Published in:

01-10-2003 | Review

Cervical myelopathy: clinical and neurophysiological evaluation

Authors: Jiri Dvorak, Martin Sutter, Joerg Herdmann

Published in: European Spine Journal | Special Issue 2/2003

Abstract

The overall frequency of troublesome neck pain is estimated to be about 34%, and it was observed that the frequency of complaints lasting 1 month or longer was higher in women than in men. The prevalence increased with age, with regard to both pain duration and chronic pain. Approximately 14% of a randomly selected population meets the criterion for chronic neck pain: complaints lasting more than 6 months. Epidemiologic data substantiate the importance of morphologic, age-related changes of the cervical spine; however, the incidence and prevalence of cervical myelopathy is not known. It could be that the structural transformation of the intervertebral disc, the uncovertebral processes and the zygapophyseal joints is a process accompanied by disturbed function that ultimately not only induces pain, but can lead to narrowing of spinal canal, with symptoms and signs of cervical myelopathy. For a diagnosis of radicular and myelopathic syndromes, the functional and neurological examination is enhanced by neurophysiological assessment. Electromyography (EMG) performed with needle electrodes is the oldest method for diagnosing nerve root compression and anterior horn cell syndromes, and is claimed to have no false-positive results. For cervical myelopathy, as a routine examination sensory evoked potentials (SEPs) by stimulation of tibial nerve and motor evoked potentials (MEPs) from the upper and lower extremities are recommended.

Abbruzzese G, Dall’Agata D, Morena M, Simonetti S, Spadavecchia L, Severi P, Andrioli GC, Favale E (1988) Electrical stimulation of the motor tracts in cervical spondylosis. J Neurol Neurosurg Psychiatry 51:796–802PubMed

Barker AT, Freeston IL, Alinous R, Merton PA, Morton HB (1985) Magnetic stimulation of the human brain. J Physiol 369:3

Barker AT, Jalinous R, Freeston IL (1985) Non-invasive magnetic stimulation of the human motor cortex. Lancet 1:1106–1107PubMed

Bednarik J, Kadanka Z, Vohanka S, Novotny O, Surelova D, Filipovicova D, Prokes B (1998) The value of somatosensory and motor evoked potentials in pre-clinical spondylotic cervical cord compression. Eur Spine J 7:493–500CrossRefPubMed

Bischoff C, Meyer BU, Machetanz J, Conrad B (1993) The value of magnetic stimulation in the diagnosis of radiculopathies. Muscle Nerve 16:154–161PubMed

Britton TC, Meyer BU, Herdmann J, Benecke R (1990) Clinical use of the magnetic stimulator in the investigation of peripheral conduction time. Muscle Nerve 13:396–406PubMed

Cadwell J (1989) Principles of magnetoelectric stimulation. In: Chokroverty S (ed) Magnetic stimulation in clinical neurophysiology. Butterworths, Boston, pp 13–32

Chomiak J, Dvorak J, Antinnes J, Sandler A (1995) Motor evoked potentials: appropriate positioning of recording electrodes for diagnosis of spinal disorders. Eur Spine J 4:180–185PubMed

Crock HV, Yoshizawa H (1977) The blood supply of the vertebral column and spinal cord in man. Springer, Vienna New York

10.

De Mattei M, Paschero B, Sciarretta A, Davini O, Cocito D (1993) Usefulness of motor evoked potentials in compressive myelopathy. Electromyogr Clin Neurophysiol 33:205–216PubMed

11.

Ebara S, Yonenobu K, Fujiwara K, Yamashita K, Ono K (1988) Myelopathy hand characterized by muscle wasting. A different type of myelopathic hand in patients with cervical spondylosis. Spine 13:785–791PubMed

12.

Esteban GR, Lagranja AR, Lopez MAC (1988) Delayed short-latency somatosensory evoked potentials in premature diagnosis of medullary disturbances in cervical spondylosis. Electromyogr Clin Neurophysiol 28:361–368PubMed

13.

Herdmann J, Linzbach M, Krzan M, Dvorak J, Bock WJ (1994) The European Myelopathy Score. In: Bauer BL, Brock M, Klinger M (eds) Advances in neurosurgery. Springer, Berlin Heidelberg, pp 266–268

14.

Kadanka Z, Mares M, Bednanik J, Smrcka V, Krbec M, Stejskal L, Chaloupka R, Surelova D, Novotny O, Urbanek I, Dusek L (2002) Approaches to spondylotic cervical myelopathy: conservative versus surgical results in a 3-year follow-up study. Spine 27:2205–2210; discussion 2210–2211CrossRefPubMed

15.

Kameyama O, Shibano K, Kawakita H, Ogawa R (1995) Transcranial magnetic stimulation of the motor cortex in cervical spondylosis and spinal canal stenosis. Spine 20:1004–1010PubMed

16.

Deleted in production

17.

Kellgren J, Lawrence J (1958) Osteo-arthrosis and disc degeneration in an urban population. Ann Rheum Dis 17:288–397

18.

Kimura, J. (1974) F-wave velocity in the central segment of the median and ulnar nerves: a study in normal subjects and patients with Charcot-Marie-Tooth disease. Neurology 24:539–546PubMed

19.

Lawrence J (1969) Disc degeneration: its frequency and relationship to symptoms. Ann Rheum Dis 28:121–136PubMed

20.

Lhermitte F, Roullet E, Lyon-Caen O, Metrot J, Villey T, Bach MA, Tournier-Lasserve E, Chabassol E, Rascol A, Clanet M, et al (1986) [Double-blind treatment of 49 cases of chronic multiple sclerosis using hyperbaric oxygen]. Rev Neurol (Paris) 142:201–206

21.

Luschka H (1858) Die Halbgelenke des menschlichen Körpers. Reimers, Berlin

22.

Matsumoto M, Toyama Y, Ishikawa M, Chiba K, Suzuki N, Fujimura Y (2000) Increased signal intensity of the spinal cord on magnetic resonance images in cervical compressive myelopathy. Does it predict the outcome of conservative treatment? Spine 25:677–682CrossRefPubMed

23.

Mills KR, Murray NMF (1986) Electrical stimulation over the human vertebral column: which neuronal elements are excited? Electroencephalogr Clin Neurophysiol 63:582–589PubMed

24.

Morio Y, Teshima R, Nagashima H, Nawata K, Yamasaki D, Nanjo Y (2001) Correlation between operative outcomes of cervical compression myelopathy and MRI of the spinal cord. Spine 26:1238–1245CrossRefPubMed

25.

Negrin P, Lelli S, Fardin P (1991) Contribution of electromyography to the diagnosis, treatment and prognosis of cervical disc disease: a study of 114 patients. Electromyogr Clin Neurophysiol 31:173–179PubMed

26.

Neuhuber WL, Zenker W (1989) Central distribution of cervical primary afferents in the rat, with emphasis on proprioceptive projections to vestibular, perihypoglossal, and upper thoracic spinal nuclei. J Comp Neurol 280:231–253PubMed

27.

Neuhuber WL, Zenker W, Bankoul S (1990) Central projections of cervical primary afferents in the rat. Some general anatomical principles and their functional significance. In: Neuhuber WL, Zenker W (eds) The primary afferent neuron. Plenum, New York, pp 173–188

28.

Norré ME (1979) Neck torsion nystagmus and neck motility. J Belg Med Phys 2:30–56

29.

Norré ME (1985) Otoneurologischer Beitrag zum Problem des zervikalen Schwindels. In: Gutmann G (ed) Arteria vertebralis. Springer, Berlin Heidelberg New York, pp 123–131

30.

Ono K (1987) Myelopathy hand. New clinical signs of cervical cord damage. J Bone Joint Surg Br 69:215–219PubMed

31.

Penning L, Töndury G (1964) Entstehung, Bau und Funktion der meniskoiden Strukturen in den Halswirbelgelenken. Z Orthop Ihre Grenzgeb 98:1–14

32.

Reiners K, Herdmann J, Freund HJ (1989) Altered mechanisms of muscular force generation in lower motor neuron disease. Muscle Nerve 12:647–659PubMed

33.

Roth G (1978) Intranervous regeneration of lower motor neuron. II. Study of 1153 motor axon reflexes. Second part: contralateral motor axon reflex crossed facial reinnervation. Electromyogr Clin Neurophysiol 18:311–350PubMed

34.

Sampath P, Bendebba M, Davis JD, Ducker TB (2000) Outcome of patients treated for cervical myelopathy. A prospective, multicenter study with independent clinical review. Spine 25:670–676CrossRefPubMed

35.

Shea P, Woods W, Werden D (1950) Electromyography in diagnosis of nerve root compression syndrome. Arch Neurol Psychiatry 64:93–104

36.

Shimizu T, Shimada H, Shirakura K (1993) Scapulohumeral reflex (Shimizu). Its clinical significance and testing maneuver. Spine 18:2182–2190PubMed

37.

Tanaka M, Dvorak J (1999) The evaluation of motor evoked potentials (MEPs) by magnetic stimulation in cervial spondylotic myelopathy. Neuroorthopedics 125:75–89

38.

Taylor J, Tworney L (1993) Acute injuries to cervical joints: an autopsy study of neck sprain. Spine 18:1115–1122PubMed

39.

Tepe HJ (1985) Die Häufigkeit osteochondrotischer Röntgenbefunde der Halswirbelsäule bei 400 symptomfreien Erwachsenen. Röfo 6:659–663

40.

Töndury G, Theiler K (1990) Entwicklungsgeschichte und Fehlbildungen der Wirbelsäule, 2nd edn. Hippokrates-Verlag, Stuttgart

41.

Vohanka S, Dvorak J (1993) Motor and somatosensory evoked potentials in cervical spinal stenosis. Presented at the 40th Congress of the Czech and Slovak Neurophysiology, Brno

42.

Wälchli B, Dvorak J (1998) Axial symptoms including cervical migraine and cervical angina. In: Ono K, Dvorak J, Dunn E (eds) Cervical spondylosis and similar disorders. World Scientific, Singapore, New Jersey, London, pp 167–180

43.

Wilbourn A, Aminoff M (1988) AAEE Mini Monograph 32. The electrophysiological examination in patients with radiculopathies. Muscle Nerve 11:1011–1014

44.

Yonenobu K (2000) Cervical radiculopathy and myelopathy: when and what can surgery contribute to treatment? Eur Spine J 9:1–7CrossRefPubMed

Title: Cervical myelopathy: clinical and neurophysiological evaluation
Authors: Jiri Dvorak
Martin Sutter
Joerg Herdmann
Publication date: 01-10-2003
Publisher: Springer-Verlag
Published in: European Spine Journal / Issue Special Issue 2/2003
Print ISSN: 0940-6719
Electronic ISSN: 1432-0932
DOI: https://doi.org/10.1007/s00586-003-0631-y

At a glance: The STEP trials

Springer Medicine

Cervical myelopathy: clinical and neurophysiological evaluation

Abstract

At a glance: The STEP trials

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Special Issue 2/2003

Bisphosphonates in osteoporosis

Natural history of the aging spine

Overview of osteoporosis: pathophysiology and determinants of bone strength

The aging spine

Principles of management of osteometabolic disorders affecting the aging spine

Posterior approach to the degenerative cervical spine