Botulinum toxin-induced myopathy in the rat

We have used histological and histochemical techniques at the light microscopical level, and electron microscopy to examine the myopathological changes in rat muscle up to 30 weeks following botulinum toxin injection. Apart from muscle fibre atrophy and related myofibrillar structural changes, the r...

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Bibliographic Details
Published in:Brain (London, England : 1878) England : 1878), 1995-04, Vol.118 (2), p.533-545
Main Authors: Hassan, Sherif M., Jennekens, Frans G. I., Veldman, Henk
Format: Article
Language:English
Subjects:
Animals
Atrophy
Bacterial diseases
Bacterial diseases of the nervous system. Bacterial myositis
Biological and medical sciences
Botulinum toxin
Botulinum Toxins - adverse effects
Botulinum Toxins - pharmacology
Clostridium botulinum
Degeneration
Electron microscopy
Female
histochemistry
Human bacterial diseases
Infectious diseases
Injection
Medical sciences
Mitochondria
Muscular Diseases - chemically induced
Muscular Diseases - pathology
Myopathy
Nerve endings
Neuromuscular Junction - drug effects
Neuromuscular Junction - ultrastructure
neuromuscular junctions
Paralysis
Rats
Rats, Wistar
Reinnervation
synapse elimination
ultrastructure
vacuolar myopathy
Vacuoles
Vacuoles - ultrastructure
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Description
Summary:We have used histological and histochemical techniques at the light microscopical level, and electron microscopy to examine the myopathological changes in rat muscle up to 30 weeks following botulinum toxin injection. Apart from muscle fibre atrophy and related myofibrillar structural changes, the results show a number of striking abnormalities which developed and disappeared at different stages. During the first 4 weeks after toxin injection, vacuoles of variable size were seen in the sarcoplasm near myonuclei, both at and away from endplates. Following this, between 4 and 10 weeks post-injection, progressive degeneration of junctional folds and separation of some nerve terminals from the simplified postsynaptic membranes were observed. At different time points following recovery from the toxin-induced paralysis (evidenced by the increase in muscle fibre size and return of function) a number of abnormalities were still detectable in muscle fibres. These included the appearance within them of multiple arrays of sarcotubular profiles, focal areas lacking myofibrillar organization and mitochondria, abnormal mitochondrial aggregates showing crystalline inclusions, and extension of the postsynaptic densities along the full depth of junctional folds. Furthermore, targetoid-like areas were detected histochemically following recovery from the toxin-induced paralysis. The early extensive vacuolation of the sarcoplasm and the degeneration of junctional folds suggest a myotoxic effect of botulinum toxin. The late changes are likely to be (at least in part) related to the process of recovery following reinnervation.
ISSN:0006-8950
1460-2156
DOI:10.1093/brain/118.2.533