1. Academic Validation
  2. R-Duloxetine and N-Methyl Duloxetine as Novel Analgesics Against Experimental Postincisional Pain

R-Duloxetine and N-Methyl Duloxetine as Novel Analgesics Against Experimental Postincisional Pain

  • Anesth Analg. 2016 Mar;122(3):719-729. doi: 10.1213/ANE.0000000000001086.
Chi-Fei Wang 1 Gabriella Russell Sho-Ya Wang Gary R Strichartz Ging Kuo Wang
Affiliations

Affiliation

  • 1 From the College of Medicine, National Cheng Kung University, Tainan, Taiwan; Department of Anesthesiology, Perioperative, and Pain Medicine, Brigham & Women's Hospital, Boston, Massachusetts; and Department of Biological Sciences, SUNY at Albany, Albany, New York.
Abstract

Background: Antidepressant S-duloxetine alleviates intractable pain associated with diabetic peripheral neuropathy and fibromyalgia. It also reduces both acute and persistent pain in various animal models. This study addresses whether the enantiomer, R-duloxetine, and the homolog, N-methyl duloxetine, could act as analgesics and whether they block neuronal Na⁺ channels.

Methods: The rat incision plus extension model on the dorsothoracic skin was applied to evoke postoperative mechanoallodynia and hyperalgesia, measured for 5 days postoperatively by local responses to von Frey filaments. R-Duloxetine and N-methyl duloxetine were administered systemically (intraperitoneal) or locally (subcutaneous [SC]) 1 hour before the surgery. The block of Na currents in rat neuronal GH3 cells was determined under the whole-cell configuration.

Results: Ipsilateral SC injections (2 mg/0.4 mL) of R-duloxetine and N-methyl duloxetine reduced both postoperative allodynia and hyperalgesia by approximately 89% to 99% in the area under the curve of skin responses next to incision over 5 days. Systemic intraperitoneal injections at a higher dosage (10 mg) had smaller analgesic effects (reduced by approximately 53%-69%), whereas contralateral SC injections (10 mg) were ineffective. Both R-duloxetine and N-methyl duloxetine blocked neuronal Na⁺ currents, with a higher affinity for the inactivated than the resting states. In addition, both drugs elicited significant use-dependent block of Na currents when stimulated at 5 Hz.

Conclusions: R-Duloxetine and N-methyl duloxetine are highly effective against postoperative pain using the skin incision model, and they elicit both tonic and use-dependent block of neuronal Na⁺ channels. Our results suggest that R-duloxetine and N-methyl duloxetine are applicable as novel analgesics.

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