2008
Ortiz MI, Lozano-Cuenca J, Granados-Soto V, Castañeda-Hernández G. Additive interaction between peripheral and central mechanisms involved in the antinociceptive effect of diclofenac in the formalin test in rats. Pharmacol Biochem Behav. 2008;91(1):32-7. ISSN:0091-3057.
Abstract
It has been proposed that the antinociception of systemic diclofenac is the outcome of peripheral and central actions. Hence, our purpose was to examine if systemic diclofenac is able to achieve effective concentrations at local and spinal sites and to characterize the interaction between its local and spinal actions. Pain was produced in the rat using the formalin test. Oral diclofenac (110 mg/kg) reduced formalin-induced pain. The antinociceptive effect of oral diclofenac (10 mg/kg) was abolished by local or spinal administration of either L-NAME (1100 g and 150 g) or glibenclamide (12.5100 g and 2575 g). These results suggest that oral diclofenac achieves effective concentrations producing an antinociceptive effect involving participation of the NOpotassium channel pathway at both, the local and spinal levels. In an additional experimental series, diclofenac was administered either locally (25200 ?g) or spinally (12.5100 ?g), yielding an antinociceptive effect by both routes. Then, diclofenac was given simultaneously by these two routes in a fixed-ratio, and antinociception was assayed. Isobolographic analysis revealed an additive interaction between the local and spinal effects of diclofenac. Hence, our results provide evidence that the overall antinociceptive effect induced by systemic diclofenac is the outcome of central and peripheral mechanisms.
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ACEMETACIN ANTINOCICEPTIVE MECHANISM IS NOT RELATED TO NO OR K+ CHANNEL PATHWAYS
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