Abstract
ObjectiveThe aim of this study was to evaluate the antinociceptive effect of biosynthetic copper nanoparticles from aqueous extract of Capparis spinosa fruit.MethodsIn this study, green synthesis of copper nanoparticles (CuNPs) was performed using C. spinosa extract according to the method described previously. The synthesized CuNPs were characterized using the UV–vis spectroscopy, Fourier transforms of infrared (FTIR), scanning electron microscopy (SEM), and energy-dispersive X-ray (EDX). The antinociceptive effect of CuNPs was evaluated by tail-flick, hot-plate, and rotarod tests following the oral administration of mice with CuNPs at the concentrations of 25, 50, and 75 mg/kg for two weeks.ResultsThe obtained maximum peak at the wavelength of 414 nm demonstrated the biosynthesis of the copper nanoparticles. SEM approved the particle size of CuNPs between 17 and 41 nm. The statistical analyses of the data of hot plate and tail-flick tests showed the potent analgesic effect of biosynthetic CuNPs. In this regard, the antinociceptive effect of at the doses of 75 mg/kg and 25 mg/kg plus morphine was significantly higher in comparison with the control group receiving morphine alone (P < 0.05). No significant (p > 0.05) difference was observed after the administration of CuNPs at the doses of 25, 50, and 75 mg/kg in the sensory-motor test.ConclusionThe present investigation demonstrated the analgesic effects of CuNPs especially in combination with morphine. These findings can provide a new strategy for producing new antinociceptive medications in the future.
Highlights
Pain is a complex mechanism that is caused by harmful stimuli in nature and is one of the most common symptoms of discomfort in individuals [1]. This phenomenon leads to changes in both the peripheral and central nervous systems so that sensory information is first transmitted to the spinal cord through the peripheral nervous system and sent to higher centers in the central nervous system for perception and final interpretation [2,3]
The present investigation was aimed to synthesize the green synthesis of CuNPs using the aqueous extract of C. spinosa and evaluate the acute and chronic antinociceptive effects of these nanoparticles in BALB/c mice model
Green synthesis of copper nanoparticles In the present investigation, the green synthesis of CuNPs was performed according to the method described by the present authors
Summary
Pain is a complex mechanism that is caused by harmful stimuli in nature and is one of the most common symptoms of discomfort in individuals [1]. This phenomenon leads to changes in both the peripheral and central nervous systems so that sensory information is first transmitted to the spinal cord through the peripheral nervous system and sent to higher centers in the central nervous system for perception and final interpretation [2,3]. The present investigation was aimed to synthesize the green synthesis of CuNPs using the aqueous extract of C. spinosa and evaluate the acute and chronic antinociceptive effects of these nanoparticles in BALB/c mice model
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