Caractérisation physiopathologique, moléculaire et métabolique de la jonction neuromusculaire et du nerf périphérique après lésion du système nerveux central chez l’homme

Abstract

From the elaborate information processing that takes place in the brain to the contraction of skeletal muscles, the neurotransmission pathways involve, at least in part, (1) in tissue, Na+, K+-ATPase electrogenesis making action potential (AP) propagation possible and (2) in the cell, the synthesis, maturation, and renewal of an amazing number of molecules concentrated at the neuromuscular junction (NMJ). Our aim is to clarify CNS and peripheral nerve system (PNS) interactions by determining whether the partial motor recovery sometimes observed after a lesion of the first motoneuron is related to (1) changes in active transportation of the ions in peripheral nerve and/or muscle and (2) morphological and/or molecular changes at the NMJ, illustrating a dysfunction. Peripheral nerve surgery is proposed to some spastic patients who have recovered partially after CNS lesions to improve their gait. During these surgical procedures, the nerve and muscle samples that are usually resected can be collected and analyzed. Here, we report on eight patients who showed strictly similar motor recovery 2 years after massive CNS lesions and who underwent a selective tibial neurotomy for a spastic equinus foot. In these eight spastic patients, we performed a pathophysiological, molecular, and metabolic study of their neuromuscular junctions and peripheral nerves to characterize the dysfunction of the neuromuscular transmission after a permanent CNS injury.