Summary
A mononeuropathy, produced by ligation of the sciatic nerve in rats, has recently been proposed as an animal model of experimental pain and pain-related disorders (hyperalgesia and allodynia). We investigated quantitatively the morphological changes in myelinated and unmyelinated fibres of the sciatic nerves 2 weeks after ligation in rats exhibiting allodynia to thermal stimulation. There was a marked reduction in the number of large myelinated fibres distal to the ligature (711 ± 34 compared with 5315 ± 230 in normal nerves). We also found a significant loss of small myelinated fibres (2429 ± 109 compared with 3197 ± 308 in normal nerves), the remaining fibres of this type showing pathological properties. Finally, ultrastructural evidence of damage to unmyelinated fibres was found. The typical pattern of large clusters of normal unmyelinated axons was no longer present within most regions of the nerve. There was a significant reduction in the size of the unmyelinated fibres (0.41 μm ± 0.15 compared with 0.71 μm ± 0.08 in normal nerves), together with a twofold increase in their number per cluster. Hypotheses about the mechanism of thermal allodynia in this pain model therefore must take into account the fact that all fibre classes show pathological changes.
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Nuytten, D., Kupers, R., Lammens, M. et al. Further evidence for myelinated as well as unmyelinated fibre damage in a rat model of neuropathic pain. Exp Brain Res 91, 73–78 (1992). https://doi.org/10.1007/BF00230014
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DOI: https://doi.org/10.1007/BF00230014