Effect of the Croton rhamnifolioides Essential Oil and the Inclusion Complex (OEFC/β-CD) in Antinociceptive Animal Models

Author:

Oliveira Brito Pereira Bezerra Martins Anita,Correia de Oliveira Maria RayaneORCID,Alcântara Isabel Sousa,Rodrigues Lindaiane Bezerra,Cesário Francisco Rafael Alves Santana,da Silva Maria Sanadia Alexandre,Castro Fyama Ferreira e,Nascimento Emmily Petícia do,Albuquerque Thaís Rodrigues de,Quintans Júnior Lucindo José,Araújo Adriano Antunes de Souza,Coutinho Henrique Douglas MeloORCID,Menezes Irwin Rose Alencar deORCID,Wanderley Almir Gonçalves

Abstract

This study aims to evaluate the antinociceptive effect of the C. rhamnifolioides leaf essential oil (OEFC) and the β-cyclodextrin inclusion complex (COEFC) and investigate the pain signaling pathways involved in the antinociceptive response. The effects of the OEFC and COEFC on the central nervous system (CNS) were determined by open field and rota-rod assays, and the antinociceptive effect was evaluated via the acetic acid-induced abdominal contortions, formalin, and hot plate models. Swiss (Mus musculus) male mice (20–30 g) were used in both trials. The OEFC (200 mg/kg/v.o-orally) and COEFC (83.5 mg/kg/v.o.) did not present alterations in the CNS. The OEFC (25, 50, 100, and 200 mg/kg/vo.) and COEFC (8.35, 41.75, and 83.5 mg/kg/v.o.) demonstrated antinociceptive effects in the abdominal contortions, formalin, and hot plate tests. The OEFC (25 mg/kg/v.o.) and COEFC (8.35 mg/kg/v.o.) doses showed that the antinociceptive effect involves the activation of the opioid, cholinergic, and vanilloid systems, as well as the L-arginine/NO and α-2 adrenergic receptor pathways. The antinociceptive potential the OEFC and COEFC demonstrate possible alternatives for the therapy of pain. However, the COEFC presented more significant effects at lower doses than the isolated OEFC, where this action may be justified by the properties and advantages of the complexation.

Publisher

MDPI AG

Subject

General Medicine

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