Characterization and Evaluation of Nano-niosomes Encapsulating Docetaxel against Human Breast, Pancreatic, and Pulmonary Adenocarcinoma Cancer Cell Lines.

Q3 Medicine

Journal of Biomedical Physics and Engineering Pub Date : 2024-04-01 DOI:10.31661/jbpe.v0i0.2401-1708

Mohammadreza Ajdari, Aliyeh Ranjbar, Khashayar Karimian, Maryam Karimi, Hossein Heli, Naghmeh Sattarahmady

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引用次数: 0

Abstract

Background: Docetaxel (DXL) is an antineoplastic agent for cancer treatment, the therapeutic efficiency of which is limited due to low solubility, hydrophobicity, and tissue specificity.

Objective: In this study, nano-niosomes were introduced for improving therapeutic index of DXL.

Material and methods: In this experimental study, two nano-niosomes were synthesized using Span 20® and Span 80® and a thin film hydration method with DXL loading (DXL-Span20 and DXL-Span80). Characterization, in-vitro cytotoxicity and bioavailability of the nano-niosomes was also evaluated via in-vivo experiments.

Results: DXL-Span20 and DXL-Span80 have vesicles size in a range of 84-90 nm and negative zeta potentials. DXL entrapment efficiencies were obtained as 69.6 and 74.0% for DXL-Span20 and DXL-Span80, respectively; with an in-vitro sustained release patterns. Cytotoxicity assays were performed against MDA-MB-231, Calu-6, and AsPC-1 cell lines, and the results indicated that DXL loading into nano-niosomes led to decrement in values of half-maximal inhibitory concentration (IC50) at least 2.5 times and at most 6.5 times, compared to free DXL. Moreover, the rat blood bioavailability of DXL after intraperitoneal administration and the pharmacokinetic parameters indicated higher DXL plasma level and the higher effectiveness of DXL-Span80 compared to DXL-Span20.

Conclusion: Carrying DXL by the nano-niosomes led to enhanced cytotoxicity (and lower IC50 values) and higher efficacy with enhanced pharmacokinetic parameters.

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包裹多西他赛的纳米生物体对人类乳腺癌、胰腺癌和肺腺癌细胞株的表征和评估

背景：多西他赛（DXL）是一种用于癌症治疗的抗肿瘤药物：多西他赛（DXL）是一种治疗癌症的抗肿瘤药物，由于溶解度低、疏水性和组织特异性，其治疗效率受到限制：材料与方法：本研究引入了纳米生物体，以提高 DXL 的治疗指数：在这项实验研究中，使用 Span 20® 和 Span 80®，并采用薄膜水合法合成了两种纳米生物体，其中含有 DXL（DXL-Span20 和 DXL-Span80）。还通过体内实验评估了纳米生物体的特性、体外细胞毒性和生物利用度：结果：DXL-Span20 和 DXL-Span80 的囊泡大小在 84-90 nm 之间，zeta 电位为负。DXL-Span20和DXL-Span80的DXL夹带效率分别为69.6%和74.0%，具有体外持续释放模式。对 MDA-MB-231、Calu-6 和 AsPC-1 细胞系进行了细胞毒性试验，结果表明，与游离 DXL 相比，将 DXL 加入纳米生物体可使半数最大抑制浓度（IC50）降低至少 2.5 倍，最多 6.5 倍。此外，大鼠腹腔给药后 DXL 的血液生物利用度和药代动力学参数表明，与 DXL-Span20 相比，DXL-Span80 的 DXL 血浆水平更高，药效更强：结论：纳米生物体携带 DXL 可增强细胞毒性（降低 IC50 值），提高药效，改善药代动力学参数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Biomedical Physics and Engineering Medicine-Radiology, Nuclear Medicine and Imaging

CiteScore

2.90

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Biomedical Physics and Engineering (JBPE) is a bimonthly peer-reviewed English-language journal that publishes high-quality basic sciences and clinical research (experimental or theoretical) broadly concerned with the relationship of physics to medicine and engineering.