Muscle fiber regeneration in human permanent lower motoneuron denervation: Relevance to safety and effectiveness of FES- training, which induces muscle recovery in SCI subjects

Artif Organs. 2005 Mar;29(3):187-91. Muscle fiber regeneration in human permanent lower motoneuron denervation: relevance to safety and effectiveness of FES-training, which induces muscle recovery in SCI subjects. Carraro U, Rossini K, Mayr W, Kern H. Source C.N.R., Institute of Neuroscience, Laboratory of Applied Myology of the Department of Biomedical Science, University of Padova Medical School, Padova, Italy. Abstract Morphologic characteristics of the long-term denervated muscle in animals suggest that some original fibers are lost and some of those seen are the result of repeated cycles of fiber regeneration. Muscle biopsies from lower motoneuron denervated patients enrolled in the EU Project RISE show the characteristics of long-term denervation. They present a few atrophic or severely atrophic myofibers dispersed among adipocytes and connective tissue (denervated degenerated muscle, DDM). Monoclonal antibody for embryonic myosin shows that regenerative events are present from 1- to 37-years postspinal cord injury (SCI). After 2- to 10-years FES-training the muscle cryosections present mainly large round myofibers. In the FES-trained muscles the regenerative events are present, but at a lower rate than long-term denervated muscles (myofiber per mm2 of cryosection area: 0.8 +/- 1.3 in FES vs. 2.3 +/- 2.3 in DDM, mean +/- SD, P = 0.011). In our opinion this is a sound additional evidence of effectiveness of the Kern's electrical stimulation protocol for FES of DDM. In any case, the overall results demonstrate that the FES-training is safe: at least it does not induce more myofiber damage/regeneration than denervation per se. PMID: 15725214 [PubMed - indexed for MEDLINE]