Antinociceptive effect of meloxicam, in neurogenic and inflammatory nociceptive models in mice

Objective: The antinociceptive effect of the new cyclooxygenase (COX)-2 inhibitor, meloxicam, given intraperitoneally (i.p.), was assessed in different models of chemical and thermal nociception in mice. Material and Methods: The analgesic effect was analysed using acetic acid-induced abdominal constriction (AA), formalin and capsaicin-induced licking, and hot-plate tests. Results: The treatment of animals with meloxicam or diclofenac (2.8-94.3 mu mol/kg, i.p. 30 min prior) caused graded and significant inhibition of AA, with mean ID50 values of 7.4 and 38.0 mu mol/kg, respectively. At the ID50 level, meloxicam was about 5-fold more potent than diclofenac. In the formalin test, meloxicam or diclofenac (0.8-94.3 mu mol/kg, i.p. 30 min prior) also caused significant inhibition of both the early (neurogenic pain) and the late (inflammatory pain) phases of formalin-induced licking. The calculated mean ID50 values for the early phase were: 7.1 and > 94.3 mu mol/kg, while for the late phase they were 2.8 and 34.5 mu mol/kg, respectively, for meloxicam and diclofenac. Meloxicam also caused significant inhibition of formalin-induced oedema (p < 0.05). Meloxicam and diclofenac (0.8-314.4 mu mol/kg, i.p. 30 min prior) produced significant and dose-related inhibition of neurogenic nociception caused by topical injection of capsaicin, with mean ID50 values of 4.0 and 47.4 mu mol/kg, respectively, but were ineffective in the hot-plate model of nociception. Conclusions: The present study shows that meloxicam dose-dependently exhibited systemic antinociceptive action when assessed against neurogenic and inflammatory pain caused by acetic acid, formalin and capsaicin models. In contrast, when assessed in the hot-plate test, meloxicam had no significant effect. Thus, meloxicam and other COX-2 inhibitors might be useful for therapeutic intervention in the management of neurogenic and inflammatory pain.