Activity-dependent conduction block in multifocal motor neuropathy

doi:10.1093/brain/123.8.1602

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Brain, Vol. 123, No. 8, 1602-1611, August 2000
© 2000 Oxford University Press

Activity-dependent conduction block in multifocal motor neuropathy

Ryuji Kaji¹, Hugh Bostock², Nobuo Kohara¹, Nagako Murase¹, Jun Kimura¹^,3 and Hiroshi Shibasaki¹

¹ Department of Neurology, Kyoto University Hospital, Kyoto, Japan, ² Sobell Department of Neurophysiology, Institute of Neurology, Queen Square, London, UK and ³ Department of Neurology, University of Iowa Hospitals and Clinics, Iowa City, USA

Correspondence to: Ryuji Kaji, MD, Department of Neurology, Kyoto University Hospital, Shogoin Sakyoku, Kyoto 606–8507, Japan E-mail: kajkyoto{at}mbox.kyoto-inet.or.jp

Patients with multifocal motor neuropathy may complain of musclefatigue, even though the degree of conduction block assessedat rest has improved with treatment. To explore the mechanisminvolved, we examined changes in muscle force during maximumvoluntary contraction (MVC) and monitored conduction block beforeand after MVC in five patients with multifocal motor neuropathy.The results were compared with those for the contralateral unaffectedhomonymous muscles. For one patient, who had bilateral involvement,a normal subject of a similar age and stature served as thecontrol. Results of conduction studies were also compared withthose from six patients with amyotrophic lateral sclerosis (ALS)with similar compound muscle action potential (CMAP) amplitudesafter proximal stimulation. During MVC for 60 s, the affectedmuscles developed prominent fatigue; the force at the end ofcontraction compared with the initial force was significantlylower for the affected muscles [42 ± 19% (mean ±standard deviation) of the initial force] than for the controlmuscles (94 ± 9%; P = 0.01). After MVC, the amplituderatio of CMAPs after proximal versus distal nerve stimulationtransiently decreased to 19 ± 14% of that before MVCin the affected muscles, but not in the control muscles (94± 3.8% of that before MVC) and in patients with ALS (95± 6.7%). In one patient with a focal lesion in the forearm,nerve excitability was monitored at the lesion site before andafter MVC for 120 s. There were significant increases in axonalthreshold (~48%) and supernormality (~135%) immediately afterMVC, suggesting that the axonal membrane had undergone hyperpolarizationand, by extrapolation, that this had precipitated the conductionblock. This study is the first to show that activity-dependentconduction block plays a role in human disease by causing musclefatigue.

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