Fe2+纳米粒子对大鼠慢性神经病理性疼痛后疼痛反应和神经振荡的影响

Q3 Veterinary
Archives of Razi Institute Pub Date : 2023-12-30 eCollection Date: 2023-12-01 DOI:10.32592/ARI.2023.78.6.1852
M H Naeimi, M T Mohammadi, M Sepandi, H Ghoshooni, M Rahimi Nasrabadi, A Gharib, Z Bahari
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引用次数: 0

摘要

神经病理性疼痛是一种由外周或中枢神经系统神经损伤引起的慢性疼痛,目前的药物治疗效果不佳。本研究旨在探讨 Fe2+ 纳米粒子对坐骨神经慢性收缩损伤(CCI)诱导的大鼠神经病理性疼痛的镇痛和抗焦虑作用。我们还评估了 Fe2+ 纳米粒子对神经病理性疼痛大鼠大脑节律振荡的影响。CCI 模型是通过四次松绑左侧坐骨神经来诱导的。雄性 Wistar 大鼠分为四组:对照组、假组、CCI 组和 CCI+Fe2+ 纳米粒子组(1 mg/kg)。CCI手术当天(第0天)和CCI手术后连续21天每天灌胃给药(每天一次)。行为研究在 CCI 术后第 1、3、7、14 和 21 天进行。丙酮试验和高架迷宫分别用于评估冷异感和诱导焦虑样反应。现场测试用于评估先天性焦虑样行为。此外,还在CCI后第21天进行了电生理研究,以评估药物对脑电波功率的影响。与CCI组相比,在CCI后的所有测试天数中,应用Fe2+都能明显减轻冷异感。所获得的数据表明,与CCI组相比,在CCI后的所有实验日中,灌胃Fe2+纳米粒子都能产生镇痛和抗焦虑作用。CCI手术明显干扰了大脑的θ、α和β功率。应用Fe2+纳米粒子并不能明显改变脑电波功率。这表明,Fe2+ 纳米粒子对大鼠慢性神经病理性疼痛有镇痛和抗焦虑作用。此外,CCI 手术有效地干扰了大脑的θ、α和β功率。然而,纳米铁2+粒子的应用并不能改变大鼠大脑振荡的失调。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Fe2+ Nanoparticles on Pain Responses and Neural Oscillation Following Chronic Neuropathic Pain in Rats.

Neuropathic pain, a chronic pain condition caused by nerve damage either of the peripheral or central nervous system, responds poorly to current drug treatments. The present study aimed to investigate the analgesic and anxiolytic effect of Fe2+ nanoparticles on chronic constriction injury of sciatic nerve (CCI)-induced neuropathic pain in rats. We also assessed the effects of Fe2+ nanoparticles on brain rhythmical oscillation in rats with neuropathic pain. The CCI model was induced by four loose ligations of the left sciatic nerve. Male Wistar rats were divided into four groups: control, sham, CCI, and CCI+Fe2+ nanoparticle (1 mg/kg). The Fe2+ nanoparticle was administered by gavage on the day of CCI surgery (day 0) and daily (once a day) for 21 consecutive days after CCI surgery. Behavioral studies were conducted on days -1, 3, 7, 14, and 21 after CCI. An acetone test and elevated plus maze were performed to evaluate cold allodynia and induced anxiety-like responses, respectively. A field test was conducted to evaluate innate anxiety-like behaviors. In addition, an electrophysiological study was carried out on day 21 after CCI to assess the effects of drugs on brain wave power. Application of Fe2+ significantly reduced cold allodynia in all tested days after CCI, compared to the CCI group. The obtained data demonstrated that Fe2+ nanoparticle gavage caused analgesic and anxiolytic effects on all experimental days after CCI, compared to the CCI group. The CCI surgery significantly disturbed theta, alpha, and beta power in the brain. The application of Fe2+ nanoparticles could not significantly change brain wave power. It is suggested that Fe2+ nanoparticle has analgesic and anxiolytic effects during chronic neuropathic pain in rats. Furthermore, the CCI surgery effectively disturbed brain theta, alpha, and beta power. Nonetheless, the application of Fe2+ nanoparticles could not change deregulated brain oscillation in rats.

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来源期刊
Archives of Razi Institute
Archives of Razi Institute Veterinary-Veterinary (all)
CiteScore
1.50
自引率
0.00%
发文量
108
审稿时长
12 weeks
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