Fundamental & clinical pharmacology
-
Fundam Clin Pharmacol · Feb 2014
Randomized Controlled Trial Multicenter StudyComparison of two doses of ketoprofen to treat pain: a double-blind, randomized, noninferiority trial.
The aim of our study was to compare the efficacy and safety of two doses of ketoprofen (200 mg vs. 300 mg/day) in ambulatory emergency patients with pain related to traumatic and nontraumatic bone and joint diseases. We tested the hypothesis that the efficacy of the lower dose was not lower than that of the higher dose in a double-blind, randomized, noninferiority trial. Patients included in the study were aged 18-65 years with closed benign trauma of the motor system or acute noninfectious rheumatologic conditions, with a resting pain intensity ≥3/10 on a numeric pain scale (NPS), requiring ketoprofen for 5 days. ⋯ The mean change in pain intensity at rest (difference between groups: 0.0, 95% CI -0.4 to 0.4; P = 1.00) and in analgesic consumption (difference between groups: -0.6, 95% CI -1.9 to 0.6; P = 0.33) was not significantly different between the two groups, and the differences were lower than the predefined inferiority margins (0.5 and 1.5, respectively), thus demonstrating noninferiority. No significant difference was noted in the incidence of adverse events (21% vs. 20%, P = 0.71). The efficacy of the 200-mg daily dose of ketoprofen in relieving pain in emergency cases was not inferior to that of the 300-mg dose.
-
Fundam Clin Pharmacol · Feb 2014
Pharmacological mechanisms involved in the antinociceptive effects of dexmedetomidine in mice.
Dexmedetomidine (DEX) is a α₂ -adrenoceptor (α₂ -AR) agonist used as an anesthetic adjuvant and as sedative in critical care settings. Typically, α₂ -AR agonists release nitric oxide (NO) and subsequently activate NO-GMPc pathway and have been implicated with antinociception. In this study, we investigate the pharmacological mechanisms involved in the antinociceptive effects of DEX, using an acetic acid-induced writhing assay in mice. ⋯ The rotarod and open-field tests confirmed there is no detectable sedation or even significant motor impairment with DEX at 10 μg/kg dose. Our results suggest that the α₂ -AR and NO-GMPc pathways play important roles in the systemic antinociceptive effect of DEX in a murine model of inflammatory pain. Furthermore, the antinociceptive effect exerted by DEX appears to be dependent on KATP channels, independent of opioid receptor activity.