Development and optimization of multivesicular gefitinib liposomal transdermal system employing lipoid S100 for breast cancer: pharmacokinetics, bioavailability, and skin irritation studies in Wistar rats

IF 3.4 Q2 PHARMACOLOGY & PHARMACY
Jyoti S. Patel, Nulgumnalli Manjunathaiah Raghavendra, B. Sajeev Kumar
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Abstract

Background

Conventional therapies in cancer treatment face challenges including drug resistance, lack of specificity, and severe adverse reactions. This study explores the potential of liposomal transdermal delivery systems as an alternative to current therapies with improved BA and PK. The objective of the study was to formulate gefitinib liposomes by thin film hydration technique (TFH) using lipoid S100. A central composite design (CCD) was used to develop and optimize GEF-LIP-TDDs and to analyze the optimum concentrations of the selected variables (phospholipid, cholesterol) in liposomal formation. The model fitting was performed using Design-Expert (Stat-Ease, Ver 13). The GEF liposomes were evaluated for %EE, mean particle size and PDI. The optimized liposomes were fabricated as a transdermal patch by mercury substrate method and evaluated for %drug content, in vitro diffusion, in vivo biodistribution (PK and BA), and skin irritation studies in female Albino Wistar rats. The stability of the optimized transdermal patch was also assessed for 3 months.

Results

The CCD model was significant with F-value of 37.97, P-value of 0.0500 and R2 of 0.9644. The average vesicle size, PDI, and ZP of GEF-LIPs (F1–F13) were found to be between 112.8 to 373.7 nm, 0.186 to 0.510 and − 3.69 to − 82.2 mV, respectively. F3-GEF-LIP exhibited a mean vesicle size of 96.07 nm, ZP of − 46.06 mV, and a PDI of 0.423. F3-GEF-LIP demonstrated exceptional %EE (97.79) and sustained release effect (%CDR, 83.32) following a diffusion-controlled mechanism. TEM images confirmed liposomes of multivesicular type (MVV, < 100 nm). Importantly, optimized F3-GEF-LIP-TD showed no signs of edema in Wistar rats. The biodistribution of F3-GEF-LIP-TD was similar to pure GEF and was higher in the liver (p < 0.05). The BA of F3-GEF-LIP-TD was observed to be 74.05 ± 0.11% in comparison with oral GEF-LIP (65.25 ± 0.08%) and pure GEF (58.10 ± 0.17%).

Conclusion

TFH technique offers stable liposomes with high reproducibility. Our findings imply that GEF-LIP-TD provides enhanced BA and tissue distribution and can be considered as a substitution for orals or in combination for treating breast cancer. Lipoid S100 is a potential lipid for developing stable multivesicular nanoliposomes.

Graphical abstract

利用类脂 S100 开发和优化治疗乳腺癌的多囊吉非替尼脂质体透皮系统:Wistar 大鼠的药代动力学、生物利用度和皮肤刺激性研究
背景癌症治疗中的传统疗法面临着耐药性、缺乏特异性和严重不良反应等挑战。本研究探讨了脂质体透皮给药系统作为现有疗法替代品的潜力,它能改善 BA 和 PK。研究的目的是利用类脂 S100,通过薄膜水合技术(TFH)配制吉非替尼脂质体。研究采用中心复合设计(CCD)来开发和优化吉非替尼-LIP-TDDs,并分析脂质体形成过程中选定变量(磷脂、胆固醇)的最佳浓度。模型拟合使用 Design-Expert (Stat-Ease, Ver 13)。对 GEF 脂质体的 %EE、平均粒径和 PDI 进行了评估。采用汞基质法将优化后的脂质体制成透皮贴片,并在雌性白化 Wistar 大鼠体内进行了药物含量、体外扩散、体内生物分布(PK 和 BA)和皮肤刺激性研究。结果 CCD 模型显著,F 值为 37.97,P 值为 0.0500,R2 为 0.9644。GEF-LIP(F1-F13)的平均囊泡大小、PDI和ZP分别为112.8至373.7 nm、0.186至0.510和-3.69至-82.2 mV。F3-GEF-LIP 的平均囊泡大小为 96.07 nm,ZP 为 - 46.06 mV,PDI 为 0.423。F3-GEF-LIP 在扩散控制机制下表现出卓越的 %EE (97.79)和持续释放效果(%CDR,83.32)。TEM 图像证实脂质体为多囊型(MVV, < 100 nm)。重要的是,优化后的 F3-GEF-LIP-TD 在 Wistar 大鼠体内没有出现水肿迹象。F3-GEF-LIP-TD的生物分布与纯GEF相似,但在肝脏中的分布更高(p <0.05)。与口服 GEF-LIP(65.25 ± 0.08%)和纯 GEF(58.10 ± 0.17%)相比,F3-GEF-LIP-TD 的 BA 值为 74.05 ± 0.11%。我们的研究结果表明,GEF-LIP-TD 可增强 BA 和组织分布,可作为口服药物的替代品或联合用药治疗乳腺癌。类脂质 S100 是开发稳定多囊纳米脂质体的潜在脂质。
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来源期刊
自引率
0.00%
发文量
44
审稿时长
23 weeks
期刊介绍: Future Journal of Pharmaceutical Sciences (FJPS) is the official journal of the Future University in Egypt. It is a peer-reviewed, open access journal which publishes original research articles, review articles and case studies on all aspects of pharmaceutical sciences and technologies, pharmacy practice and related clinical aspects, and pharmacy education. The journal publishes articles covering developments in drug absorption and metabolism, pharmacokinetics and dynamics, drug delivery systems, drug targeting and nano-technology. It also covers development of new systems, methods and techniques in pharmacy education and practice. The scope of the journal also extends to cover advancements in toxicology, cell and molecular biology, biomedical research, clinical and pharmaceutical microbiology, pharmaceutical biotechnology, medicinal chemistry, phytochemistry and nutraceuticals.
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