Azhar M Elwan, Ibrahim M Farag, Mohamed M M Elnasharty
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引用次数: 0
Abstract
Detoxification is one of the most important liver functions. Therefore, liver is the front line of defense when the biosystem faces drug overdose, toxins, and anything that may cause harm. Some famous antibiotics are known for their side effects on liver; one of them is amoxicillin, AM. This work has investigated the toxic effect of amoxicillin on rat's liver with overdose (90 mg/kg) and has studied the ameliorative role of protective and therapeutic Ashwagandha seeds extract (ASE) at doses (100, 200, and 300 mg/kg) against this toxicity. To achieve this work, the authors used two modalities; the first is liver histopathology to figure out the amoxicillin and ASE effects and to detect the sensitivity of another modality; the electric modulus, and its related thermodynamic parameters of liver tissue. Histopathological examination showed that the role of therapeutic ASE in reducing amoxicillin (AM) toxicity was more effective than the protective one. Also, most dielectric and thermodynamic results achieved the same result. Histopathology confirmed the liver injury by amoxicillin and the partial repair by the biosystem using ASE. Moreover, electric modulus, related dielectric parameters, and their thermodynamic state functions showed different changes in their values under the effect of amoxicillin. Using ASE helped the biosystem to restore these changes near their control values.
解毒是肝脏最重要的功能之一。因此,当生物系统面对药物过量、毒素和任何可能造成伤害的物质时,肝脏是最前线的防线。一些知名的抗生素因其对肝脏的副作用而闻名,其中之一就是阿莫西林(AM)。这项研究调查了过量(90 毫克/千克)阿莫西林对大鼠肝脏的毒性作用,并研究了具有保护和治疗作用的芦荟籽提取物(ASE)在剂量(100、200 和 300 毫克/千克)下对这种毒性的改善作用。为了完成这项工作,作者使用了两种方法:第一种是肝组织病理学,以了解阿莫西林和 ASE 的作用,并检测另一种方法的敏感性;即肝组织的电模量及其相关热力学参数。组织病理学检查显示,治疗性 ASE 在降低阿莫西林(AM)毒性方面的作用比保护性 ASE 更有效。此外,大多数介电和热力学结果也达到了相同的效果。组织病理学证实了阿莫西林对肝脏的伤害,以及使用 ASE 的生物系统对肝脏的部分修复。此外,在阿莫西林的作用下,电模量、相关介电参数及其热力学状态函数的数值也发生了不同的变化。使用 ASE 有助于生物系统将这些变化恢复到控制值附近。
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