Subscribe to RSS
Download PDF
DOI: 10.1055/s-0028-1109729
© Georg Thieme Verlag KG Stuttgart · New York
Die okuläre Neuromyotonie – klinisches Bild und Gedanken zur Pathogenese
Ocular Neuromyotonia – Clinical Appearance and Thoughts on PathogenesisPublication History
Eingegangen: 18.7.2009
Angenommen: 30.7.2009
Publication Date:
13 November 2009 (online)
Zusammenfassung
Die okuläre Neuromyotonie ist eine seltene, neurogen bedingte Augenbewegungsstörung. Die Patienten beklagen vorübergehende Doppelbilder infolge einer plötzlichen, schmerzlosen und unwillkürlichen Abweichung eines Auges in die Zugrichtung des hochfrequent stimulierten Augenmuskels. Das Phänomen wird in der Regel nach einer Bestrahlung beobachtet, kann aber ebenso durch eine neuronale Kompression bedingt sein. Die Pathophysiologie ist bisher nicht geklärt. Als Hypothese werden eine ephaptische Transmission, die Störung von Kaliumkanälen der neuronalen Zellmembran und eine zentrale Reorganisation diskutiert. Die Diagnose der okulären Neuromyotonie wird in der Regel anhand der klinischen Symptomatik gestellt und kann durch eine elektromyografische Untersuchung gesichert werden. Zum Ausschluss einer kompressionsbedingten Genese sollte stets eine zerebrale Bildgebung unter besonderer Beurteilung des betroffenen Hirnnervs durchgeführt werden. Die okuläre Neuromyotonie lässt sich in der Regel gut mit Carbamazepin behandeln.
Abstract
Ocular neuromyotonia (ONM) is a rare neurogenic disorder of ocular motility. The affected patients complain of recurrent transient diplopia secondary to a sudden, painless deviation of one eye. This deviation occurs in the direction of action of an extraocular muscle, which is being stimulated at high frequency. ONM is usually seen after radiation therapy, but may also be caused by compression of the affected cranial nerve. The pathophysiology of ONM is incompletely understood, potential mechanisms include 1) ephaptic transmission along the affected nerve, 2) disturbances of potassium channels in the neuronal cell membrane, and 3) central neural re-organisation. The diagnosis of ONM is made based on clinical findings and can be supported by electrophysiological characteristics. Neuroimaging with attention to the affected cranial nerve should be obtained in order to exclude a compressive cause. Therapy of ONM with carbamazepine is usually effective.
Schlüsselwörter
Neuroophthalmologie - Strabologie - Pathophysiologie - Neuromyotonie
Key words
neuroophthalmology - strabism - pathophysiology - neuromyotonia
Literatur
- 1
Abdulla N, Eustace P.
A case of ocular neuromyotonia with tonic pupil.
J Neuroophthalmol.
1999;
19
125-127
MissingFormLabel
- 2
Albers J W, Allen A A, Bastron J A. et al .
Limb myokymia.
Muscle Nerve.
1981;
4
494-504
MissingFormLabel
- 3
Attal N, Bouhassira D.
Mechanisms of pain in peripheral neuropathy.
Acta Neurol Scand Suppl.
1999;
173
12-24; discussion 48 – 52, 12 – 24
MissingFormLabel
- 4
Bacskulin A, Guthoff R.
Neuromyotonia of the abducens nerve after hypophysectomy and radiation.
Strabismus.
1999;
7
37-40
MissingFormLabel
- 5
Banks M C, Caruso P A, Lessell S.
Midbrain-thalamic ocular neuromyotonia.
Arch Ophthalmol.
2005;
123
118-119
MissingFormLabel
- 6
Barroso L, Hoyt W F.
Episodic exotropia from lateral rectus neuromyotonia – appearance and remission after
radiation therapy for a thalamic glioma.
J Pediatr Ophthalmol Strabismus.
1993;
30
56-57
MissingFormLabel
- 7
Blinzinger K, Kreutzberg G.
Displacement of synaptic terminals from regenerating motoneurons by microglial cells.
Z Zellforsch Mikrosk Anat.
1968;
85
145-157
MissingFormLabel
- 8
Bostock H, Bergmans J.
Post-tetanic excitability changes and ectopic discharges in a human motor axon.
Brain.
1994;
117
913-928
MissingFormLabel
- 9
Chang Q, Balice-Gordon R J.
Gap junctional communication among developing and injured motor neurons.
Brain Res Brain Res Rev.
2000;
32
242-249
MissingFormLabel
- 10
Chang Q, Gonzalez M, Pinter M J. et al .
Gap junctional coupling and patterns of connexin expression among neonatal rat lumbar
spinal motor neurons.
J Neurosci.
1999;
19
10 813-10 828
MissingFormLabel
- 11
Chang Q, Pereda A, Pinter M J. et al .
Nerve injury induces gap junctional coupling among axotomized adult motor neurons.
J Neurosci.
2000;
20
674-684
MissingFormLabel
- 12
Choi K D, Hwang J M, Park S H. et al .
Primary aberrant regeneration and neuromyotonia of the third cranial nerve.
J Neuroophthalmol.
2006;
26
248-250
MissingFormLabel
- 13
Chung S M, Lee A G, Holds J B. et al .
Ocular neuromyotonia in Graves dysthyroid orbitopathy.
Arch Ophthalmol.
1997;
115
365-370
MissingFormLabel
- 14
Saint Sardos de A, Vincent A, Aroichane M. et al .
Ocular neuromyotonia in a 15-year-old girl after radiation therapy.
J AAPOS.
2008;
12
616-617
MissingFormLabel
- 15
Ela-Dalman N, Arnold A C, Chang L K. et al .
Abducens nerve ocular neuromyotonia following non-sellar or parasellar tumors.
Strabismus.
2007;
15
149-151
MissingFormLabel
- 16
Ezra E, Spalton D, Sanders M D. et al .
Ocular neuromyotonia.
Br J Ophthalmol.
1996;
80
350-355
MissingFormLabel
- 17
Fricke J, Neugebauer A, Kirsch A. et al .
Ocular neuromyotonia: a case report.
Strabismus.
2002;
10
119-124
MissingFormLabel
- 18
Frohman E M, Zee D S.
Ocular neuromyotonia: clinical features, physiological mechanisms, and response to
therapy.
Ann Neurol.
1995;
37
620-626
MissingFormLabel
- 19
Fu E R.
Ocular neuromyotonia – an unusual ocular motility complication after radiation therapy
for nasopharyngeal carcinoma.
Ann Acad Med Singapore.
1995;
24
895-897
MissingFormLabel
- 20
Granit R, Leksell L, Skolund C R.
Fibre interaction in injured or compressed region of nerve.
Brain.
1944;
67
125-140
MissingFormLabel
- 21
Hanson M G, Landmesser L T.
Characterization of the circuits that generate spontaneous episodes of activity in
the early embryonic mouse spinal cord.
J Neurosci.
2003;
23
587-600
MissingFormLabel
- 22
Harrison A R, Wirtschafter J D.
Ocular neuromyotonia in a patient with cavernous sinus thrombosis secondary to mucormycosis.
Am J Ophthalmol.
1997;
124
122-123
MissingFormLabel
- 23
Haupert C L, Newman N J.
Ocular neuromyotonia 18 years after radiation therapy.
Arch Ophthalmol.
1997;
115
1331-1332
MissingFormLabel
- 24
Helmchen C, Dieterich M, Straube A. et al .
Abduzensneuromyotonie mit partieller Okulomotoriusparese.
Nervenarzt.
1992;
63
625-629
MissingFormLabel
- 25
Isaacs H A.
A syndrome of continuous muscle fibre-activity.
J Neurol Neurosurg Psychiat.
1961;
24
319-325
MissingFormLabel
- 26
Jacob M, Vighetto A, Bernard M. et al .
Ocular neuromyotonia secondary to a cavernous sinus meningioma.
Neurology.
2006;
66
1598-1599
MissingFormLabel
- 27
Jefferys J G.
Nonsynaptic modulation of neuronal activity in the brain: electric currents and extracellular
ions.
Physiol Rev.
1995;
75
689-723
MissingFormLabel
- 28
Kapoor R, Smith K J, Felts P A. et al .
Internodal potassium currents can generate ectopic impulses in mammalian myelinated
axons.
Brain Res.
1993;
611
165-169
MissingFormLabel
- 29
Koop G, Graf M.
Okuläre Neuromyotonie – Ein Fallbericht.
Klin Monatsbl Augenheilkd.
2006;
223
247-251
MissingFormLabel
- 30
Lance J W, Burke D, Pollard J.
Hyperexcitability of motor and sensory neurons in neuromyotonia.
Ann Neurol.
1979;
5
523-532
MissingFormLabel
- 31
Lepore F E, Glaser J S.
Misdirection revisited. A critical appraisal of acquired oculomotor nerve synkinesis.
Arch Ophthalmol.
1980;
98
2206-2209
MissingFormLabel
- 32
Lessell S, Lessell I M, Rizzo III J F.
Ocular neuromyotonia after radiation therapy.
Am J Ophthalmol.
1986;
102
766-770
MissingFormLabel
- 33
Maddison P.
Neuromyotonia.
Clin Neurophysiol.
2006;
117
2118-2127
MissingFormLabel
- 34
Miller N R, Lee A G.
Adult-onset acquired oculomotor nerve paresis with cyclic spasms: relationship to
ocular neuromyotonia.
Am J Ophthalmol.
2004;
137
70-76
MissingFormLabel
- 35
Newman S A.
Gaze-induced strabismus.
Surv Ophthalmol.
1993;
38
303-309
MissingFormLabel
- 36
Nielsen V K.
Pathophysiology of hemifacial spasm: I. Ephaptic transmission and ectopic excitation.
Neurology.
1984;
34
418-426
MissingFormLabel
- 37
Oohira A, Furuya T.
Ocular neuromyotonia with spastic lid closure.
J Neuroophthalmol.
2006;
26
244-247
MissingFormLabel
- 38
Papst W.
Zur Differentialdiagnose der okulären Neuromyotonie.
Ophthalmologica.
1972;
164
252-263
MissingFormLabel
- 39
Park H Y, Hwang J M, Kim J S.
Abducens neuromyotonia due to internal carotid artery aneurysm.
J Neurol Sci.
2008;
270
205-208
MissingFormLabel
- 40
Personius K, Chang Q, Bittman K. et al .
Gap junctional communication among motor and other neurons shapes patterns of neural
activity and synaptic connectivity during development.
Cell Commun Adhes.
2001;
8
329-333
MissingFormLabel
- 41
Plant G T.
Putting ocular neuromyotonia in context.
J Neuroophthalmol.
2006;
26
241-243
MissingFormLabel
- 42
Ramon F, Moore J W.
Ephaptic transmission in squid giant axons.
Am J Physiol.
1978;
234
C162-C169
MissingFormLabel
- 43
Rasminsky M.
Ephaptic transmission between single nerve fibres in the spinal nerve roots of dystrophic
mice.
J Physiol.
1980;
305
151-169
MissingFormLabel
- 44
Ricker K, Mertens H G.
Okuläre Neuromyotonie.
Klein Monatsbl Augenheilkd.
1970;
156
837-842
MissingFormLabel
- 45
Safran A B, Magistris M.
Terminating attacks of ocular neuromyotonia.
J Neuroophthalmol.
1998;
18
47-48
MissingFormLabel
- 46
Sanders D B.
Ephaptic transmission in hemifacial spasm: a single-fiber EMG study.
Muscle Nerve.
1989;
12
690-694
MissingFormLabel
- 47
Schirrmacher K, Brummer F, Dusing R. et al .
Dye and electric coupling between osteoblast-like cells in culture.
Calcif Tissue Int.
1993;
53
53-60
MissingFormLabel
- 48
Schmitz D, Schuchmann S, Fisahn A. et al .
Axo-axonal coupling. A novel mechanism for ultrafast neuronal communication.
Neuron.
2001;
31
831-840
MissingFormLabel
- 49
Seltzer Z, Devor M.
Ephaptic transmission in chronically damaged peripheral nerves.
Neurology.
1979;
29
1061-1064
MissingFormLabel
- 50
Shillito P, Molenaar P C, Vincent A. et al .
Acquired neuromyotonia: evidence for autoantibodies directed against K + channels
of peripheral nerves.
Ann Neurol.
1995;
38
714-722
MissingFormLabel
- 51
Shults W T, Hoyt W F, Behrens M. et al .
Ocular neuromyotonia. A clinical description of six patients.
Arch Ophthalmol.
1986;
104
1028-1034
MissingFormLabel
- 52
Tilikete C, Vial C, Niederlaender M. et al .
Idiopathic ocular neuromyotonia: a neurovascular compression syndrome?.
J Neurol Neurosurg Psychiatry.
2000;
69
642-644
MissingFormLabel
- 53
Tomasulo R A.
Aberrant conduction in human peripheral nerve: ephaptic transmission?.
Neurology.
1982;
32
712-719
MissingFormLabel
- 54
Waveren van M, Herzau V, Besch D.
Okuläre Neuromyotonie nach Strahlentherapie.
Ophthalmologe.
2008;
106
47-51
MissingFormLabel
- 55
Versino M, Colnaghi S, Todeschini A. et al .
Ocular neuromyotonia with both tonic and paroxysmal components due to vascular compression.
J Neurol.
2005;
252
227-229
MissingFormLabel
- 56
Vincent A, Jacobson L, Plested P. et al .
Antibodies affecting ion channel function in acquired neuromyotonia, in seropositive
and seronegative myasthenia gravis, and in antibody-mediated arthrogryposis multiplex
congenita.
Ann N Y Acad Sci.
1998;
841
482-96
MissingFormLabel
- 57
Warmolts J R, Mendell J R.
Neurotonia: impulse-induced repetitive discharges in motor nerves in peripheral neuropathy.
Ann Neurol.
1980;
7
245-250
MissingFormLabel
- 58
Welch L K, Appenzeller O, Bicknell J M.
Peripheral neuropathy with myokymia, sustained muscular contraction, and continuous
motor unit activity.
Neurology.
1972;
22
161-169
MissingFormLabel
- 59
Yee R D, Purvin V A.
Ocular neuromyotonia: three case reports with eye movement recordings.
J Neuroophthalmol.
1998;
18
1-8
MissingFormLabel
- 60
Yuruten B, Ilhan S.
Ocular neuromyotonia: a case report.
Clin Neurol Neurosurg.
2003;
105
140-142
MissingFormLabel
- 61
Zoidl G, Dermietzel R.
On the search for the electrical synapse: a glimpse at the future.
Cell Tissue Res.
2002;
310
137-142
MissingFormLabel
Dr. Thomas Klaus Wermund
Augenklinik, HELIOS Kliniken Schwerin
Wismarsche Straße 393 – 397
19049 Schwerin
Phone: ++ 49/3 85/5 20 30 60
Fax: ++ 49/3 85/5 20 30 72
Email: T.Wermund@gmx.de