Quality by Design-Steered Development of Stealth Liposomal Formulation of Everolimus: A Systematic Optimization and Evaluation

IF 2.1 4区 医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Current drug metabolism Pub Date : 2024-08-28 DOI:10.2174/0113892002322171240821104152
Simranjeet Kaur, Rajveer Sidhu, Dilpreet Singh
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Abstract

Background: Everolimus is a drug approved for the treatment of breast cancer with HR+ and advanced breast cancer reoccurring in postmenopausal women. The oral administration of EVE has been observed to have low oral bioavailability and severe epithelial cutaneous events that include rashes and lip ulceration followed by mouth ulceration after oral administration. Aim: The present research aimed to enhance the bioavailability by loading the EVE into a stealth liposomal formulation (S-EVE-LIPO) intended for intravenous administration. Methods: The surface of the liposomes was modified with vitamin E TPGS, which prolongs the systemic circulation of the drug and provides additional benefits like inhibition of the P-gp efflux pump and acting synergistically with EVE. Results: The formulation was prepared using the thin film hydration method and optimized using a D-optimal mixture design. ANOVA suggested the significance of the proposed mathematic model, and the optimized formulation was generated by design expert software. The optimized formulation (S-EVE-LIPO) was observed with nanometric size (99.5 ± 3.70 nm) with higher encapsulation efficacy (81.5 ± 2.86 %). The S-EVELIPO formulation indicated a sustained release profile as 90.22% drug release was observed in 48 h, whereas the formulation without vitamin E TPGS (EVE-LIPO) released only 74.15 drugs in 24 hours. In vitro cytotoxicity study suggested that the presence of vitamin E TPGS lowers the IC50 value (54.2 ± 1.69), increases the cellular uptake of the formulation, also increases the generation of ROS, and shows better hemocompatibility. result: The formulation was prepared by thin film hydration method and optimized by D-optimal mixture design. ANOVA suggested significancy of the proposed mathematic model and optimized formulation was generated by design expert software The optimized formulation (S-EVE-LIPO) has observed with nanometric size (99.5 ± 3.70 nm) with higher encapsulation efficacy (81.5 ± 2.86 %). The S-EVE-LIPO formulation indicated with a sustained release profile as 90.22% drug release was observed in 48 h, whereas the formulation without vitamin E TPGS (EVE-LIPO) releases only 74.15 drug in 24 hours. In vitro cytotoxicity study suggested that the presence of vitamin E TPGS lowers the IC50 value (54.2 ± 1.69), increases the cellular uptake of the formulation, also increases the generation of ROS and shows better hemocompatibility. Conclusion: Vitamin E TPGS could be set as a vital additive to improve therapeutic efficacy and reduce offsite toxicity and dosing frequency.
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依维莫司隐形脂质体制剂的设计质量引导开发:系统优化与评估
背景介绍依维莫司(Everolimus)是一种已获批准的药物,用于治疗绝经后妇女再发的HR+和晚期乳腺癌。据观察,口服依维莫司的口服生物利用度较低,口服后会出现严重的皮肤上皮事件,包括皮疹和唇部溃疡,随后出现口腔溃疡。目的:本研究旨在通过将 EVE 加入隐形脂质体制剂(S-EVE-LIPO)以提高其生物利用度,该制剂用于静脉给药。研究方法脂质体表面经维生素 E TPGS 修饰,可延长药物的全身循环,并提供额外的益处,如抑制 P-gp 外排泵和与 EVE 起协同作用。结果制剂采用薄膜水合法制备,并通过 D- 最佳混合物设计进行了优化。方差分析表明所提出的数学模型具有显著性,并通过设计专家软件生成了优化配方。优化后的配方(S-EVE-LIPO)具有纳米级尺寸(99.5 ± 3.70 nm)和更高的封装效率(81.5 ± 2.86 %)。S-EVELIPO 配方具有持续释放特性,在 48 小时内药物释放量达到 90.22%,而不含维生素 E TPGS 的配方(EVE-LIPO)在 24 小时内药物释放量仅为 74.15%。体外细胞毒性研究表明,维生素 E TPGS 的存在降低了 IC50 值(54.2 ± 1.69),增加了细胞对制剂的吸收,也增加了 ROS 的产生,并显示出更好的血液相容性:制剂采用薄膜水合法制备,并通过 D- 最佳混合物设计进行了优化。优化配方(S-EVE-LIPO)具有纳米级尺寸(99.5 ± 3.70 nm)和更高的封装效率(81.5 ± 2.86 %)。S-EVE-LIPO 配方具有持续释放特性,48 小时内药物释放量达到 90.22%,而不含维生素 E TPGS 的配方(EVE-LIPO)24 小时内药物释放量仅为 74.15%。体外细胞毒性研究表明,维生素 E TPGS 的存在降低了 IC50 值(54.2 ± 1.69),增加了细胞对制剂的吸收,也增加了 ROS 的产生,并显示出更好的血液相容性。结论维生素 E TPGS 可作为一种重要的添加剂,用于提高疗效、降低异位毒性和用药频率。
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来源期刊
Current drug metabolism
Current drug metabolism 医学-生化与分子生物学
CiteScore
4.30
自引率
4.30%
发文量
81
审稿时长
4-8 weeks
期刊介绍: Current Drug Metabolism aims to cover all the latest and outstanding developments in drug metabolism, pharmacokinetics, and drug disposition. The journal serves as an international forum for the publication of full-length/mini review, research articles and guest edited issues in drug metabolism. Current Drug Metabolism is an essential journal for academic, clinical, government and pharmaceutical scientists who wish to be kept informed and up-to-date with the most important developments. The journal covers the following general topic areas: pharmaceutics, pharmacokinetics, toxicology, and most importantly drug metabolism. More specifically, in vitro and in vivo drug metabolism of phase I and phase II enzymes or metabolic pathways; drug-drug interactions and enzyme kinetics; pharmacokinetics, pharmacokinetic-pharmacodynamic modeling, and toxicokinetics; interspecies differences in metabolism or pharmacokinetics, species scaling and extrapolations; drug transporters; target organ toxicity and interindividual variability in drug exposure-response; extrahepatic metabolism; bioactivation, reactive metabolites, and developments for the identification of drug metabolites. Preclinical and clinical reviews describing the drug metabolism and pharmacokinetics of marketed drugs or drug classes.
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