Formulation and optimisation of Ozenoxacin topical nano-emulgel including a comprehensive methodology to qualify and validate the critical parameters of an in-vitro release test method and ex-vivo permeation test.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-04-01 Epub Date: 2024-03-15 DOI:10.1080/03639045.2024.2327466

Amarnath Reddy Ramireddy, Dilip Kumar Behara

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引用次数: 0

Abstract

Objective: The purpose of this study was to formulate, optimize Ozenoxacin topical nano-emulsion using factorial design followed by to prepare and evaluate nano-emulgel using validated in-vitro release testing (IVRT) technique for determination of Ozenoxacin release rate along with ex-vivo permeation testing (EVPT).Significance: Nano-emulgel is a proven delivery system for poorly soluble substances works by enhancing the solubility and bioavailability. Factorial design provides a systematic and efficient means to study the effect of multiple factors on responses. IVRT is an USP compendia technique utilized for performance analysis of semi-solid formulations.

Methods: Nano-emulsion formulation optimization was done with factorial design, evaluated for globule size and % entrapment efficiency (EE). Nano-emulgels were characterized for assay, organic impurities, rheological behavior, IVRT, EVPT, and skin retention studies. IVRT validation was executed using vertical diffusion cells (VDCs).

Results: Ozenoxacin nano-emulsion was optimized with 1:1 ratio of Oil: S_mix, 3:1 ratio of Surfactant:Co-Surfactant, and 15000 RPM of homogenization speed which resulted 414.6 ± 5.2 nm globule size and 92.8 ± 2.1% entrapment efficiency. Results confirmed that IVRT and Reversed Phase - High Performance Liquid Chromatographic techniques were validated as per regulatory guidelines. In-vitro, ex-vivo drug release, and skin retention from the optimized nano-emulgel formulation was comparatively higher (∼1.5 times) than that from the innovator (OZANEX^TM) formulation.

Conclusions: Based on these results, Ozenoxacin nano-emulgel can be considered an effective alternative and was found to be stable at 40 °C/75% RH and 30 °C/75% RH storage condition for 6 months.

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制备和优化奥氮诺沙星局部纳米凝胶，包括鉴定和验证体外释放测试方法和体内渗透测试关键参数的综合方法。

研究目的本研究的目的是采用因子设计法配制和优化奥氮那星外用纳米乳液，然后使用有效的体外释放测试（IVRT）技术制备和评估纳米乳胶，以确定奥氮那星的释放率，同时进行体外渗透测试（EVPT）：纳米凝胶是一种行之有效的给药系统，可提高溶解度和生物利用度，用于治疗溶解度低的药物。因子设计为研究多种因素对反应的影响提供了一种系统而有效的方法。IVRT 是一种美国药典技术，用于半固体制剂的性能分析：方法：采用因子设计对纳米乳剂配方进行了优化，并对球状大小和夹带效率进行了评估。对纳米乳胶进行了化验、有机杂质、流变行为、IVRT、EVPT 和皮肤保留研究。使用垂直扩散池进行了 IVRT 验证：采用 1:1 的油:Smix 比例、3:1 的表面活性剂:辅助表面活性剂比例和 15000 转/分钟的均质速度优化了 Ozenoxacin 纳米乳液，结果发现其球形大小为 414.6 ± 5.2 nm，夹带效率为 92.8 ± 2.1%。结果证实，IVRT 和反相-高效液相色谱技术均通过了监管指南的验证。优化后的纳米凝胶配方的体外、体内药物释放量和皮肤保留率比创新配方（OZANEXTM）高出1.5倍：根据上述结果，奥氮诺沙星纳米栓剂可被视为一种有效的替代品，在 40 °C/75% RH 和 30 °C/75% RH 的条件下可稳定贮存 6 个月。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464