AI Article Synopsis
- Opiates are effective for managing moderate to severe pain, especially in chronic conditions like cancer, but they can also cause increased sensitivity to pain (hyperalgesia) after prolonged use.
- Recent studies in rodents show that prolonged opiate use can lead to changes in the nervous system that may contribute to this increased sensitivity and tolerance to pain relief.
- Research on oxymorphone in rats suggests that specific interactions with opioid receptors are necessary for these adverse effects, indicating that hyperalgesia and tolerance arise from complex neuroplastic changes rather than just byproducts of drug metabolism.
Article Abstract
Opiates are commonly used to treat moderate to severe pain and can be used over prolonged periods in states of chronic pain such as those associated with cancer. In addition, to analgesic actions, studies show that opiate administration can paradoxically induce hyperalgesia. At the pre-clinical level, such hyperalgesia is associated with numerous pronociceptive neuroplastic changes within the primary afferent fibers and the spinal cord. In rodents, sustained opiate administration also induces antinociceptive tolerance. The mechanisms by which prolonged opiate exposure induces hyperalgesia and the relationship of this state to antinociceptive tolerance remain unclear. The present study was aimed at determining whether sustained opiate-induced hyperalgesia, associated neuroplasticity and antinociceptive tolerance are the result of specific opiate interaction at opiate receptors. Enantiomers of oxymorphone, a mu opioid receptor agonist, were administered to rats by spinal infusion across 7 days. Sustained spinal administration of (-)-oxymorphone, but not its inactive enantiomer (+)-oxymorphone or vehicle, upregulated spinal dynorphin content, produced thermal and tactile hypersensitivity, and produced antinociceptive tolerance. These results indicate that these pronociceptive actions of sustained opiate administration require specific interaction with opiate receptors and are unlikely to be the result of accumulation of potentially excitatory metabolic products. While the precise mechanisms, which may account for these pronociceptive changes remain to be unraveled, the present data point to plasticity initiated by opiate receptor interaction.
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| http://dx.doi.org/10.1016/j.neulet.2005.11.009 | DOI Listing |
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