Postoperative incident pain is not easily treated with opioids. Mechanical hyperalgesia induced by skin incision in rats is one of the animal models of postoperative incident pain. It is thought that mechanical hyperalgesia is maintained by the sensitization of spinal dorsal horn neurons. The NK-1 receptor, the opioid receptor like1 (ORL1) receptor, and cyclooxygenase (COX)-2 reportedly are involved in the development of spinal sensitization. In this study, we clarified the role of the NK-1 receptor, the ORL1 receptor, and COX-2 in the maintenance of mechanical hyperalgesia induced by skin incision. A 1-cm longitudinal incision was made through skin and fascia of the plantar aspect of the right foot in the rat. Four hours after the skin incision, significant mechanical hyperalgesia developed. An ORL1 receptor agonist (nociceptin), NK-1 receptor antagonists (CP-96,345 and FK888), and COX-2 inhibitors (NS398 and JTE522) were administered intrathecally 4 h after the skin incision. An ORL1 receptor agonist and NK-1 receptor antagonists, but not COX-2 inhibitors, significantly attenuated the level of mechanical hyperalgesia induced by the skin incision. These findings suggest that the spinal ORL1 receptor and the NK-1 receptor play an important role in maintaining the mechanical hyperalgesia induced by skin incision.
Implications: Intrathecal injection of an NK-1 receptor antagonist and an ORL1 receptor agonist may be effective for the treatment of postoperative incident pain.