麻疯树乙醇叶提取物对Wistar大鼠的植物化学筛选、抗肥胖及保肝作用

Dennis Amaechi, B. Yisa, I. P. Ekpe, P. I. Nwawuba, Alacks Rabbi
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引用次数: 1

摘要

目的:研究麻疯树的植物化学成分、抗肥胖和保肝作用。方法:将35只白化Wistar大鼠随机分为5组,每组7只。各组进行如下处理:A组为对照组,B组和C组分别给予100 mg/kg和150 mg/kg的提取物剂量。D组和e组分别给药200 mg/kg和250 mg/kg丹参提取物,采用常规方法鉴定丹参的植物化学成分、抗肥胖和保肝作用。结果:经定性植物化学筛选,发现丹参含有生物碱、类黄酮、单宁、心苷、蒽醌和皂苷等生物化学成分。除C组外,结果显示,与对照组相比,胆固醇水平显著下降(P< 0.05)。与其他各组相比,A组HDL浓度显著升高(P< 0.05)。D组给药后ALP水平(8.70±6.54)显著低于正常对照组(15.00±8.00)。其他各组均有明显下降,但治疗E组ALT活性明显降低(5.33±1.33)。B组(14.003.61)和E组(14.003.61)的AST活性均有轻微但显著的下降,而C组(24.33±3.53)和D组(36.67±17.34)的AST活性升高更为显著。结论:该研究得出结论,植物提取物可能用于治疗代谢紊乱,如肥胖和心血管疾病,因为它们具有降低胆固醇和保护肝脏的作用。此外,植物化学物质可以用作药物前体、合成修饰模板和药理学探针。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phytochemical Screening, Anti-obesity and Hepatoprotective Activities of Ethanol Leaf Extract of Jatropha tanjorensis in Wistar Rats
Aim: The objective of this study is to assess Jatropha tanjorensis's phytochemical components, anti-obesity and hepatoprotective properties. Methods: 35 albino Wistar rats were placed into five groups of seven rats each. Each group received the following treatment: Group A served as the control group, and extract doses of 100 mg/kg and 150 mg/kg were given to groups B and C, respectively. Doses of 200 mg/kg and 250 mg/kg of J. tanjorensis extract were given to groups D and E. Using accepted methods, the phytochemical components, anti-obesity, and hepatoprotective properties of J. tanjorensis were identified. Results: J. tanjorensis was found to include biochemical building blocks like alkaloids, flavonoids, tannins, cardiac glycosides, anthraquinones, and saponins after undergoing a qualitative phytochemical screening. With the exception of group C, the results showed a substantial (P< 0.05) drop in cholesterol levels when compared to the control group. Group A's HDL concentration levels increased significantly (P< 0.05) when compared to the other groups.In treated group D (8.70±6.54) after extract administrations, ALP levels were significantly (p 0.05) lower than in the normal control group (15.00±8.00). Although there was a considerable decline in other groups, the ALT activity was found to be significantly lower in treatment group E (5.33±1.33). Treatment groups B (14.003.61) and E (14.003.61) saw a minor but significant decline in AST activity, but treatment groups C (24.33±3.53) and D (36.67±17.34) saw a more significant increase. Conclusion: The study concludes that plant extracts may be used to treat metabolic disorders like obesity and cardiovascular diseases because they have the potential to lower cholesterol and have hepatoprotective effects. Additionally, phytochemicals may be used as drug precursors, templates for synthetic modification, and pharmacological probes.
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