Abstract

Congenital myasthenic syndromes (CMS) are a group of inherited disorders of neuromuscular transmission most commonly presenting with early onset fatigable weakness, ptosis, and ophthalmoparesis. CMS are classified according to the localization of the causative molecular defect. CMS with presynaptic dysfunction can be caused by mutations in several different genes, including those involved in acetylcholine synthesis, its packaging into synaptic vesicles, vesicle docking, and release from the presynaptic nerve terminal and neuromuscular junction development and maintenance. Electrodiagnostic testing is key in distinguishing CMS from other neuromuscular disorders with similar clinical features as well as for revealing features pointing to a specific molecular diagnosis. A decremental response on low-frequency repetitive nerve stimulation (RNS) is present in most presynaptic CMS. In CMS with deficits in acetylcholine resynthesis however, a decrement may only appear after conditioning with exercise or high-frequency RNS and characteristically displays a slow recovery. Facilitation occurs in CMS caused by mutations in VAMP1, UNC13A, SYT2, AGRN, LAMA5. By contrast, facilitation is absent in the other presynaptic CMS described to date. An understanding of the underlying molecular mechanisms therefore assists the interpretation of electrodiagnostic findings in patients with suspected CMS.

Highlights

  • Congenital myasthenic syndromes (CMS) are a heterogeneous group of rare inherited disorders of neuromuscular transmission

  • While repetitive nerve stimulation (RNS) in DHMN-VII patients did not reveal a decrement, increased jitter was reported on single-fiber electromyography (SFEMG), this could result from the presence of immature neuromuscular junctions in the setting of reinnervation [55]

  • Presynaptic CMS can be caused by mutations in a number of genes with different functions, leading to different electrophysiological findings

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Summary

Introduction

Congenital myasthenic syndromes (CMS) are a heterogeneous group of rare inherited disorders of neuromuscular transmission. Like acquired disorders of the neuromuscular junction, CMS generally demonstrate a decremental response to low-frequency (2–3 Hz) repetitive nerve stimulation (RNS) and increased jitter or blocking on single-fiber electromyography (SFEMG). In certain presynaptic disorders of neuromuscular transmission, an increased calcium concentration in the presynaptic nerve terminal can overcome a defect in synaptic vesicle release.

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