Department of Pharmaceutics and Pharmaceutical Technology, Institute of Pharmacy, Nirma University, SG Highway, Gujarat, 382481, Ahmedabad, India.
Department of Pharmaceutics and Pharmaceutical Technology, Ramanbhai Patel College of Pharmacy, Charotar University of Science and Technology, Changa, Anand, Gujarat, 388421, India.
AAPS PharmSciTech. 2022 Jul 14;23(6):197. doi: 10.1208/s12249-022-02346-1.
Corticosteroids, such as betamethasone dipropionate (BMD), have been the mainstay in topical therapy as potent glucocorticoid receptor agonist with immune suppression, anti-proliferative, and anti-inflammatory effects. Moreover, they have poor skin penetration, which is a hurdle against its potential therapeutic benefits. In present investigation, nanocrystals as carrier for effective topical delivery of BMD were explored using wet milling as technique and polysorbate 80 as a non-ionic stabilizer. Upon optimizing different process parameters, promising results were observed at stabilizer concentration of 0.9% w/v having particle size analysis (PSA) and PDI as 284 nm and 0.299, respectively. These results were supported by the FTIR and PXRD spectra of BMD-API and BMD nanocrystals, suggesting strong crystal lattice structure of BMD being reduced due to milling. The reduction in particle morphology was evident from the FESEM images. The optimized batch of BMD nanocrystals was incorporated into Carbopol gel base, showing pH 6.2 ± 0.2 and viscosity 87.00 ± 5.2 Pa s at 25°C. A drug diffusion study using Franz diffusion cell proclaimed around ~86% BMD release from nanogel across the membrane. Also, it was observed that the BMD permeation across the skin was 2.39-fold higher with marketed formulation in contrast to BMD nanogel, suggesting prolonged drug release. The skin permeation flux with nanogel was at a much lower rate along with ~50.27% drug retention in different strata of skin, resulting in retention of drug nanocrystals. Thus, in nutshell the prolonged drug release from nanogel would fulfill the aim of once a day application and would aid in reducing the adverse events associated with repeated drug applications.
倍他米松二丙酸酯(BMD)等皮质类固醇是一种强效糖皮质激素受体激动剂,具有免疫抑制、抗增殖和抗炎作用,一直是局部治疗的主要药物。此外,它们的皮肤穿透性差,这是阻碍其潜在治疗效果的一个障碍。在本研究中,使用湿磨法作为技术,聚山梨酯 80 作为非离子稳定剂,探索了纳米晶体作为 BMD 有效局部递药的载体。在优化不同的工艺参数后,在稳定剂浓度为 0.9%w/v 时观察到了有希望的结果,其粒径分析(PSA)和 PDI 分别为 284nm 和 0.299。BMD-API 和 BMD 纳米晶体的 FTIR 和 PXRD 光谱支持了这些结果,表明由于研磨,BMD 的晶格结构强烈降低。从 FESEM 图像可以明显看出颗粒形态的减小。将优化的 BMD 纳米晶体批次掺入 Carbopol 凝胶基质中,在 25°C 时 pH 值为 6.2±0.2,粘度为 87.00±5.2Pa s。使用 Franz 扩散池进行的药物扩散研究表明,纳米凝胶中约有 86%的 BMD 通过膜释放。此外,与市售制剂相比,BMD 纳米凝胶观察到 BMD 穿过皮肤的渗透增加了 2.39 倍,表明药物释放时间延长。纳米凝胶的皮肤渗透通量较低,皮肤不同层的药物滞留率约为 50.27%,导致药物纳米晶体的滞留。总之,纳米凝胶中药物的释放时间延长将实现每天一次给药的目标,并有助于减少与重复药物应用相关的不良反应。
