木酸对四氧嘧啶诱导的大鼠糖尿病神经病变的影响

E. Ameyaw, E. Obese, D. Asante, R. Biney, A. Karikari, E. Adakudugu, Bright G. Dzotefe, Madison Adanusa
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摘要

背景:神经性疼痛是糖尿病患者的常见症状。本研究调查了木异酸(XA),木异酸是糖尿病神经病变中埃塞俄比亚木异酸的主要成分,并确定了该化合物对某些选定组织的可能毒性。方法:给药120 mg/kg四氧嘧啶诱导6组雄性大鼠患上糖尿病。糖尿病确诊为血糖水平>15 mmol/dl。糖尿病诱导后第3天确认神经性疼痛,开始给予10 mg/kg、30 mg/kg或100 mg/kg木酸、10 mg/kg格列本脲、10 mg/kg吗啡和10 ml/kg生理盐水治疗,并持续15天。在治疗期间,评估治疗对冷性异常痛(4°C冷水)和热痛觉过敏(55±1°C热水)的影响。实验第15天后进行肝、肾组织学、血液学、血清生化、精液分析。结果:木酸在冷性异常痛和热性痛觉过敏试验中具有显著的抗高血糖和镇痛作用。与高剂量和阴性对照相比,10 mg/kg XA显著恢复了精子活力、活力和数量。血液学分析结果显示XA具有保护作用,尽管四氧嘧啶治疗对肝脏和肾脏造成组织学损害。结论:低剂量木酸可改善大鼠糖尿病神经病变,且不产生有害影响。
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Effect of xylopic acid on alloxan-induced diabetic neuropathy in rats
Background: Neuropathic pain is a very disturbing condition commonly found in diabetic patients. This study investigated xylopic acid (XA), the major constituent of Xylopia aethiopica in diabetic neuropathy as well as established possible toxicity of the compound on some selected tissues. Methods: Diabetes was induced in six groups of male rats with 120 mg/kg alloxan monohydrate. Diabetes was confirmed as a blood glucose level >15 mmol/dl. Neuropathic pain was confirmed on day three post-diabetes induction and treatment with 10 mg/kg, 30 mg/kg or 100 mg/kg xylopic acid, 10 mg/kg glibenclamide, 10 mg/kg morphine, and 10 ml/kg normal saline were initiated and continued for the next 15 days. The effects of the treatments on cold allodynia (cold water at 4°C) and thermal hyperalgesia (hot water at 55 ± 1°C) were evaluated within the duration of treatments. Histology of the liver and kidney, as well as haematological, serum biochemical, and semen analyses, were done after the fifteenth day of the experiment. Results: Xylopic acid produced significant anti-hyperglycaemic and analgesic effects in the cold allodynia and thermal hyperalgesia tests. Sperm motility, viability and count were significantly restored at 10 mg/kg XA as compared higher doses and negative control. The outcome of haematological analysis revealed a protective effect of XA although histological damage liver and kidney due to alloxan treatment was observable. Conclusions: Xylopic acid ameliorates diabetic neuropathy in rats and does not exert detrimental effects at low doses.
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