Neurol. praxi. 2010;11(2):81-84

Neurophysiology and electrodiagnosis of neuromuscular transmission

prof.MUDr.Zdeněk Ambler, DrSc.
Neurologická klinika LF UK a FN, Plzeň

This review summarizes the principles of normal neuromuscular transmission. Depolarization of the nerve terminal produces an influx

of calcium through voltage-gated calcium channels and acetylcholine vesicles then fuse with the presynaptic membrane. After release,

acetylcholine (ACh) interacts with the acetylcholine receptor (AChR); this opens the AChR channel, resulting in an influx of sodium. When

a sufficient quantity of ACh binds to the receptors, sodium channels in muscle membrane open, leading to depolarization of the muscle

and contraction. Electrodiagnostic studies can demonstrate a defect of neuromuscular transmission in two ways. The first is by repetitive

nerve stimulation at slow rates 2–3 Hz and detection of decrement. The second is by performing single fiber electromyography and

evaluating jitter or neuromuscular block.

Keywords: neuromuscular junction, neuromuscular transmission, repetitive nerve stimulation, single fiber electromyography

Published: April 1, 2010  Show citation

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Ambler Z. Neurophysiology and electrodiagnosis of neuromuscular transmission. Neurol. praxi. 2010;11(2):81-84.
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