Contraction response to muscle percussion: A reappraisal of the mechanism of this bedside test

• Published in: Clinical neurophysiology Vol. 129; no. 1; pp. 51 - 58
• Main Authors: Czarnetzki, Christoph, Truffert, André, Mekideche, Abdelhafid, Poncet, Antoine, Lysakowski, Christopher, Tramèr, Martin R., Magistris, Michel R.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.01.2018
• Subjects: F-waves; Idiomuscular response; Motor point; Neurological examination; Neuromuscular junction blockade; Tibialis anterior muscle; Idiomuscular response; Neurological examination; Neuromuscular junction blockade; Tibialis anterior muscle; F-waves; Motor point
• ISSN: 1388-2457; 1872-8952
• DOI: 10.1016/j.clinph.2017.10.013

•We studied the contraction evoked by hammer percussion of muscle in healthy humans.•Contraction evoked by muscle percussion stems from direct excitation of the muscle.•Muscle percussion also excites motor axons within the muscle. To study whether the contraction evoked by muscle percussion stems from the excitation of the muscle or of the nerve and to discuss the changes of this response in neuromuscular disorders. In 30 neurologically healthy patients undergoing surgery (for ear, nose, or throat problems unrelated to the study) under general anesthesia with propofol and sufentanil we measured with an electrogoniometer the maximal dorsiflexion of the ankle evoked by reflex hammer percussion of the tibialis anterior muscle before and under neuromuscular junction blockade with rocuronium bromide. In 3 additional healthy volunteers we searched for F-waves to disclose whether percussion excites axons within the muscle. Responses from 28 neurologically healthy patients (15 women) were analyzed after exclusion of 2 due to technical problems. Mean age (SD) was 28 (9) years. Maximal dorsiflexion of the ankle was not significantly modified by neuromuscular junction blockade (mean difference 0.01 mV [95%CI, −0.07 to 0.08], p=0.879). Muscle percussion evoked F-waves in the 3 healthy volunteers tested. Maximal contraction response to muscle percussion has a muscular rather than a neural origin. However, percussion also excites axons within the muscle. These findings may provide clues to understand the changes observed in neuromuscular disorders.