BACKGROUND: The research on conductive analgesia induced by perineural opioids generated a large body of conflicting data. In this study we reassessed the antinociceptive response to perineural administration of morphine, fentanyl or meperidine in a rat model. METHODS: Analgesia was assessed using the hind paw withdrawal latency (HPWL) response to radiant heat. The opioid dose producing 20% of maximal possible effect (20%MPE) for systemic analgesia was calculated for each drug. Then sciatic blockade was performed with the dose corresponding to 20%MPE. The injected hind paw was used to measure direct perineural effect and the contralateral hind paw was used as an indicator of systemic effect. RESULTS: The response latency produced by morphine or fentanyl was not significantly different for ipsilateral (perineural effect) or contralateral (systemic effect) paw (27+/-11 vs. 28+/-16 and 3l+/-16 vs. 23+/-16 s, respectively). However, the meperidine group showed significantly higher %MPE for the ipsilateral paw (79+/-32 s) than for the contralateral paw (27+/-22 s). CONCLUSIONS: The results indicate that perineural fentanyl or morphine do not produce analgesia. Perineural block produced by meperidine was attributed to local anesthetic-like effect, rather than to drug interaction with opioid receptor.
BACKGROUND: The research on conductive analgesia induced by perineural opioids generated a large body of conflicting data. In this study we reassessed the antinociceptive response to perineural administration of morphine, fentanyl or meperidine in a rat model. METHODS:Analgesia was assessed using the hind paw withdrawal latency (HPWL) response to radiant heat. The opioid dose producing 20% of maximal possible effect (20%MPE) for systemic analgesia was calculated for each drug. Then sciatic blockade was performed with the dose corresponding to 20%MPE. The injected hind paw was used to measure direct perineural effect and the contralateral hind paw was used as an indicator of systemic effect. RESULTS: The response latency produced by morphine or fentanyl was not significantly different for ipsilateral (perineural effect) or contralateral (systemic effect) paw (27+/-11 vs. 28+/-16 and 3l+/-16 vs. 23+/-16 s, respectively). However, the meperidine group showed significantly higher %MPE for the ipsilateral paw (79+/-32 s) than for the contralateral paw (27+/-22 s). CONCLUSIONS: The results indicate that perineural fentanyl or morphine do not produce analgesia. Perineural block produced by meperidine was attributed to local anesthetic-like effect, rather than to drug interaction with opioid receptor.
Authors: Dagmar Hackel; Susanne M Krug; Reine-Solange Sauer; Shaaban A Mousa; Alexander Böcker; Diana Pflücke; Esther-Johanna Wrede; Katrin Kistner; Tali Hoffmann; Benedikt Niedermirtl; Claudia Sommer; Laura Bloch; Otmar Huber; Ingolf E Blasig; Salah Amasheh; Peter W Reeh; Michael Fromm; Alexander Brack; Heike L Rittner Journal: Proc Natl Acad Sci U S A Date: 2012-06-25 Impact factor: 11.205
Authors: Egle M Mambretti; Katrin Kistner; Stefanie Mayer; Dominique Massotte; Brigitte L Kieffer; Carsten Hoffmann; Peter W Reeh; Alexander Brack; Esther Asan; Heike L Rittner Journal: Mol Pain Date: 2016-03-01 Impact factor: 3.395