地索奈德的稳健 U-HPLC 方法开发及其在外用膏剂产品体外释放测试 (IVRT) 中的应用

Seelam Jayadev, Ismail Y
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This is due to the variability in API release rates for a specific semisolid formulation under different test conditions Objective: To evaluate the drug release in Desonide products in accordance with SUPAC guidance, quantify the drug concentration using an analytical method, as per bioanalytical method validation guidelines, and ensure that the results meet the acceptance criteria. Linearity was established from 0.50μg/mL to 40μg/mL with acceptable regression values. Precision was confirmed three times, with an average % RSD of below 15% for 3 sets of 6QC level sample preparations. Stability tests demonstrated Desonide stability in receptor fluid (LLOQ and ULOQ) for 72 hours at 2-8°C and 25°C. Autosampler stability at LQC and HQC levels was proven at 25°C for 72 hours. Additionally, the stock solution remained stable at both 25°C and 2-8°C for 72 hours. 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引用次数: 0

摘要

研究背景:本研究的重点是按照局部用药分类系统(TCS)的指导原则,建立得索奈德乳膏的体外释放测试(IVRT)参数,以评估参考列表药物(RLD)与试验之间的生物等效性。目的:本研究旨在利用弗朗兹扩散池开发一种可靠的 IVRT 方法。建立了一种环境友好型 U-HPLC 方法来分析样品中的地索奈德:这包括评估线性度、稳健性、精密度、灵敏度、重现性、选择性、特异性和回收率。在体外释放测试 (IVRT) 中,准确度的概念变得无关紧要,因为并不存在明确的"实际"释放率。这是因为在不同的测试条件下,特定半固体制剂的原料药释放率存在差异:根据 SUPAC 指南评估得舒尼特产品的药物释放情况,根据生物分析方法验证指南使用分析方法量化药物浓度,并确保结果符合验收标准。线性范围为 0.50μg/mL 至 40μg/mL,回归值可接受。精密度经过三次确认,3 组 6QC 级样品制备的平均 RSD%低于 15%。稳定性测试表明,在 2-8°C和 25°C条件下,受体液(LLOQ 和 ULOQ)中德索尼特的稳定性为 72 小时。自动进样器在 25°C、72 小时的 LQC 和 HQC 级稳定性得到证实。此外,原液在 25°C 和 2-8°C 下均保持稳定 72 小时。方法:研究包括评估给药方案、释放介质和膜,同时根据柱温、流动相组成和流速等三个变量优化 U-HPLC 方法。实验结果表明,尼龙膜和 0.9% NaCl:甲醇释放介质(70:30 v/v),剂量为 1000 毫克,可最大限度地改善地索奈德的释放曲线。结果:所创建的解释策略在测量地索奈德时精确、细致、准确,测量的定位限 LOD 和测量下限 LLOQ 分别为 0.15 和 0.50 ng /mL,结果令人满意。回归系数 r2 为 0.9996。德索尼特测量值的降低被认为是可接受的,这主要是因为恢复值低于 30.00,此外还因为在 IVRT 研究中,德索尼特释放率呈良好的线性关系。结论:所分析的三种非专利产品均与 RLD 相当,符合 FDA SUPAC-SS 指南中规定的 "相同性 "要求。针对得索奈德开发了一种新型 U-HPLC 方法,其检测范围为 0.5 至 40 μg/ml,日内和日间变异性低于 2% RSD。此外,还确定了其他特征,并成功测定了地索奈德的稳定性。
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Robust U-HPLC Method Development of Desonide and its Application to In Vitro Release Testing (IVRT) of Topical Cream Products
Background: The study focuses on establishing In Vitro Release Testing (IVRT) parameters for Desonide cream, following the guidelines of the Topical Classification System (TCS), to assess the bioequivalence between the Reference Listed Drug (RLD) and test. Aim: This study aimed to develop a reliable IVRT method using Franz diffusion cells. An environmentally friendly U-HPLC method was created to analyze Desonide in the samples. objective: This includes assessing Linearity, robustness, precision, sensitivity, reproducibility, selectivity, specificity, and recovery. In the context of In-vitro Release Testing (IVRT), the concept of accuracy becomes irrelevant because there isn't a definitive "actual" release rate. This is due to the variability in API release rates for a specific semisolid formulation under different test conditions Objective: To evaluate the drug release in Desonide products in accordance with SUPAC guidance, quantify the drug concentration using an analytical method, as per bioanalytical method validation guidelines, and ensure that the results meet the acceptance criteria. Linearity was established from 0.50μg/mL to 40μg/mL with acceptable regression values. Precision was confirmed three times, with an average % RSD of below 15% for 3 sets of 6QC level sample preparations. Stability tests demonstrated Desonide stability in receptor fluid (LLOQ and ULOQ) for 72 hours at 2-8°C and 25°C. Autosampler stability at LQC and HQC levels was proven at 25°C for 72 hours. Additionally, the stock solution remained stable at both 25°C and 2-8°C for 72 hours. Methods: The study involved evaluating the dosing regimen, release medium, and membrane while optimizing the U-HPLC method based on three variables including column temperature, mobile phase composition, and flow rate. After experimentation, it was determined that Nylon membrane and 0.9% NaCl: Methanol release media (70:30 v/v) with 1000 mg dose were used to maximize the release profile of desonide. Results: The created explanatory strategy is precise, delicate, and exact for measuring Desonide, with satisfactory Limits of Location LOD and Lower Limits of Measurement LLOQ measured at 0.15 and 0.50 ng /mL, respectively. The Regression coefficient r2 was identified to be 0.9996. The degree of Desonide measurement lessening was considered palatable, basically since the recuperation was underneath 30.00, additionally due to the favourable linear relationship watched within the Desonide discharge rates amid the IVRT study. Conclusion: All three generic products analyzed were found to be equivalent to the RLD, meeting for "sameness" outlined in the FDA's SUPAC-SS guidance. A novel U-HPLC method was developed for Desonide, covering the range from 0.5 to 40 μg/ml, with intra and inter-day variability below 2% RSD. Additional characterizations were established, and the stability of Desonide was successfully determined.
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