Hepatoprotective activity of QBD-based optimized N-acetyl cysteine solid lipid nanoparticles against CCL4-induced liver injury in mice

IF 1.1 Q4 PHARMACOLOGY & PHARMACY

Pharmacia Pub Date : 2023-11-30 DOI:10.3897/pharmacia.70.e113287

Bhavana Madupoju, Subhakar Raju Rapaka, N. Malothu, P. K. Desu, A. Areti

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Abstract

Purpose: In the present study, N-acetyl cysteine (NAC)-Solid Lipid Nanoparticles (SLNs) were developed employing the Quality by Design (QBD) approach for the application of hepatoprotective activity. Methods: Using Box-Behnken Design (BBD) three independent variables (Soya lecithin, polysorbate content, and homogenization speed) and four dependent variables (% entrapment efficiency (EE), % drug release (DR), zeta potential (ZP), and particle size (PS)) were chosen for the study. The formulations were prepared by the hot homogenization method and characterized with SEM, FTIR, DSC, and XRD and evaluated their % EE, % DR, PS, and ZP. Developed SLNs were tested for their hepatoprotective activity by an in vivo mice model and compared the effectiveness with free NAC and Silymarin. Results: The optimized NAC-SLNs were found optimum with spherical and intact chemical structure (88.95% EE, 97.15% DR, -43.01 mv ZP, < 200 nm of PS) exhibiting Higuchi model of drug release. In terms of MDA levels, NAC-SLNs had a strong protective impact MDA level (23.09±0.01–21.84±0.01 u mole/mg protein) and were efficient in increasing GPx (16.89±0.01–20.71±0.02 unit/mg protein), GSH (18.94±0.57–24.21±1.00 unit/mg protein), which were reduced in the CCl4-intoxicated group. NAC-SLNs were more effective than NAC at inhibiting the liver enzymes SGOT (150.01±1.5–132.01±0.6 mg/dL), SGPT (100.73±1.1–91.98±2.8 mg/dL), ALP (147.07±0.8–124.79±0.5 mg/dL), and LDH (290.37±3.04–228.25±2.03U/L). Conclusion: The study concludes that NAC-SLNs therapy was not only substantially more effective than NAC, but it also had effects equivalent to a well-known hepatoprotective and antioxidant drug Silymarin.

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基于 QBD 的优化 N-乙酰半胱氨酸固体脂质纳米颗粒对 CCL4 诱导的小鼠肝损伤的护肝活性

目的：本研究采用 "质量源于设计"（QBD）方法开发了具有保肝活性的 N-乙酰半胱氨酸（NAC）-固体脂质纳米颗粒（SLNs）。方法：采用盒-贝肯设计（BBD）法，选择了三个自变量（大豆卵磷脂、聚山梨醇酯含量和均质化速度）和四个因变量（夹带率（EE）、药物释放率（DR）、ZETA电位（ZP）和粒度（PS））进行研究。制剂采用热均质法制备，并通过扫描电镜、傅立叶变换红外光谱、电化学扫描和 X 射线衍射进行表征，同时评估其 EE%、DR%、PS 和 ZP。通过体内小鼠模型测试了所开发的 SLNs 的保肝活性，并比较了其与游离 NAC 和水飞蓟素的功效。结果：优化后的 NAC-SLNs 呈球形，化学结构完整（88.95% EE、97.15% DR、-43.01 mv ZP、< 200 nm PS），显示出 Higuchi 药物释放模型。在MDA水平方面，NAC-SLNs对MDA水平（23.09±0.01-21.84±0.01 u mole/mg蛋白）有较强的保护作用，并能有效增加GPx（16.89±0.01-20.71±0.02单位/mg蛋白）和GSH（18.94±0.57-24.21±1.00单位/mg蛋白），而CCl4中毒组的GPx和GSH水平均有所下降。NAC-SLNs 对肝酶 SGOT（150.01±1.5-132.01±0.6 mg/dL）、SGPT（100.73±1.1-91.98±2.8 mg/dL）、ALP（147.07±0.8-124.79±0.5 mg/dL）和 LDH（290.37±3.04-228.25±2.03U/L）的抑制作用比 NAC 更有效。结论该研究得出结论，NAC-SLNs疗法不仅比NAC有效得多，而且其效果与著名的保肝抗氧化药物水飞蓟素相当。

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