Department of Pharmaceutics, Maliba Pharmacy College, Uka Tarsadia University, Maliba Campus, Gopal Vidyanagar, Bardoli-Mahuva Road, Tarsadi, 394350, Surat, Gujarat, India.
Department of Pharmacology, Maliba Pharmacy College, Uka Tarsadia University, Surat, Gujarat, India.
AAPS PharmSciTech. 2024 Sep 25;25(7):222. doi: 10.1208/s12249-024-02944-1.
Overactive bladder (OAB) is a usual medical syndrome that affects the bladder, and Mirabegron (MBG) is preferred medicine for its control. Currently, available marketed formulations (MYRBETRIQ® granules and MYRBETRIQ® ER tablets) suffer from low bioavailability (29-35%) hampering their therapeutic effectiveness and compromising patient compliance. By creating MBG nanostructured lipid carriers (MBG-NLCs) for improved systemic availability and drug release, specifically in oral administration of OAB treatment, this study aimed to address these issues. MBG-NLCs were fabricated using a hot-melt ultrasonication technique. MBG-GMS; MBG-oleic acid interaction was assessed by in silico molecular docking. QbD relied on the concentration of Span 80 (X1) and homogenizer speed (X2) as critical material attribute (CMA) and critical process parameter (CPP) respectively, while critical quality attributes (CQA) such as particle size (Y1) and cumulative drug release at 24 h (Y2) were estimated as dependent variables. 32 factorial design was utilized to investigate the interconnection in variables that are dependent and independents. Optimized MBG-NLCs with a particle size of 194.4 ± 2.25 nm were suitable for lymphatic uptake. A PDI score of 0.275 ± 0.02 and zeta potential of -36.2 ± 0.721 mV indicated a uniform monodisperse system with stable dispersion properties. MBG-NLCs exhibited entrapment efficiency of 77.3 ± 1.17% and a sustained release in SIF of 94.75 ± 1.60% for 24 h. MBG-NLCs exhibited the Higuchi model with diffusion as a release mechanism. A pharmacokinetic study in Wistar rats exhibited a 1.67-fold higher bioavailability as compared to MBG suspension. Hence, MBG-NLCs hold promise for treating OAB by improving MBG's oral bio absorption.
膀胱过度活动症(OAB)是一种常见的影响膀胱的医学综合征,米拉贝隆(MBG)是其控制的首选药物。目前,市售的制剂(MYRBETRIQ®颗粒和 MYRBETRIQ® ER 片剂)存在生物利用度低(29-35%)的问题,这影响了其治疗效果,并降低了患者的依从性。通过创建 MBG 纳米结构脂质载体(MBG-NLCs)以提高系统可用性和药物释放,特别是在口服治疗 OAB 中,本研究旨在解决这些问题。MBG-NLCs 是使用热熔超声技术制备的。通过计算机分子对接评估 MBG-GMS;MBG-油酸相互作用。基于 QbD,Span 80 的浓度(X1)和匀浆速度(X2)分别作为关键物料属性(CMA)和关键工艺参数(CPP),而粒径(Y1)和 24 小时累积药物释放(Y2)等关键质量属性(CQA)则作为因变量进行评估。32 因子设计用于研究依赖和独立变量之间的相互关系。优化的 MBG-NLCs 的粒径为 194.4±2.25nm,适合淋巴摄取。PDI 评分为 0.275±0.02,zeta 电位为-36.2±0.721mV,表明系统具有均匀的单分散性和稳定的分散特性。MBG-NLCs 的包封效率为 77.3±1.17%,在 SIF 中 24 小时内的释放率为 94.75±1.60%。MBG-NLCs 表现出 Higuchi 模型的扩散释放机制。在 Wistar 大鼠的药代动力学研究中,与 MBG 混悬液相比,生物利用度提高了 1.67 倍。因此,MBG-NLCs 通过提高 MBG 的口服生物吸收,有望用于治疗 OAB。
