Artículo de revista
Isobolographic analysis of the opioid-opioid interactions in a tonic and a phasic mouse model of induced nociceptive pain
Date
2014Registration in:
Journal of Biomedical Science 2014, 21:62
DOI: 10.1186/s12929-014-0062-6
Author
Miranda Guzmán, Hugo
Noriega, Viviana
Zanetta, Pilar
Prieto Domínguez, Juan
Prieto Rayo, Juan Carlos
Aranda, Nicolás
Sierralta García, Fernando
Institutions
Abstract
Background: Opioids have been used for the management of pain and coadministration of two opioids may
induce synergism. In a model of tonic pain, the acetic acid writhing test and in a phasic model, the hot plate, the
antinociceptive interaction between fentanyl, methadone, morphine, and tramadol was evaluated.
Results: The potency of opioids in the writhing test compared to the hot plate assay was from 2.5 (fentanyl) to
15.5 (morphine) times, respectively. The ED50 was used in a fixed ratio for each of the six pairs of opioid
combinations, which, resulted in a synergistic antinociception except for methadone/tramadol and fentanyl/
tramadol which were additive, in the hot plate. The opioid antagonists naltrexone, naltrindole and nor-binaltorphimine,
suggests that the synergism of morphine combinations are due to the activation of MOR subtypes with partially
contribution of DOR and KOR, however fentanyl and methadone combinations are partially due to the activation of
MOR and DOR subtypes and KOR lack of participation. The antinociceptive effects of tramadol combinations, are
partially due to the activation of MOR, DOR and KOR opioid subtypes.
Conclusion: These results suggets that effectiveness and magnitude of the interactions between opioids are
dependent on pain stimulus intensity.