Propagation disturbance of motor unit action potentials during transient paresis in generalized myotonia - A high-density surface EMG study

Patients with autosomal recessive generalized myotonia, or Pecker's disease, often suffer from a peculiar transient paresis, As yet, the relationship between this transient paresis and the defect in the gene encoding for a voltage gated Cl- channel protein in the muscle membrane of these patients is unclear. In order to gain a better understanding of the electrophysiological properties of the muscle fibre membrane in these generalized myotonia patients, we have studied transient paresis with a novel high-density surface EMG (sEMG) technique. We conclude that the transient paresis is explained by a deteriorating muscle membrane function, ending in conduction block and paresis, Multi-channel sEMG during the period of force decline in transient paresis shows a decrease in peak-peak amplitude of the motor unit action potentials from endplate towards tendon, This disturbance increases with time and place, indicating a deteriorating membrane function, and ends in a complete blocking of propagation within seconds. Spatiotemporally, this leads to a V-shaped sEMG pattern, In a more general sense, this contribution shows how spatiotemporal information, available through non-invasive high-density sERMG, may provide novel insights into electrophysiological aspects of membrane dysfunction.