Engy A. Ibrahim, Samah S. Saad, Maha A. Hegazy, Laila E. Abdel Fattah, Hoda M. Marzouk
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The stability of SAF was investigated under different stress conditions. It was found that SAF is likely to undergo acid, base hydrolysis, and oxidative degradation. Using mass spectrometry and infrared spectroscopy, the structures of the forced degradation products were confirmed and elucidated. The dissolution behavior of Parkimedine<sup>®</sup> Tablets was also monitored in the FDA suitable medium. Multiple assessment tools were used to evaluate the environmental sustainability of the proposed methods and the reported one. The greenness tools included Complex-GAPI and AGREE metrics. 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引用次数: 0
摘要
帕金森病(Parkinson's disease,PD)已成为老年人群中一个值得关注的健康问题。甲磺酸沙菲那胺(SAF)是治疗帕金森病的一种新兴附加疗法。创新药物制剂的稳定性和适当稳定性指示方法的开发对现代药物分析具有重要意义。目前的工作建立了新颖的综合性稳定性指示色谱法,即 HPTLC 结合密度定量法和 HPLC-DAD 法,用于选择性地检测药物制剂中的 SAF 及其合成前体杂质;4-羟基苯甲醛 (4-HBD) 及其应激降解产物。研究了 SAF 在不同应力条件下的稳定性。研究发现,SAF 有可能发生酸、碱水解和氧化降解。利用质谱法和红外光谱法确认并阐明了强迫降解产物的结构。此外,还在 FDA 适用介质中对 Parkimedine® 片剂的溶解行为进行了监测。使用了多种评估工具来评估建议方法和报告方法的环境可持续性。绿色工具包括 Complex-GAPI 和 AGREE 指标。此外,还通过新引入的 BAGI 和 RGB12 算法分别纳入了 "蓝度 "和 "白度 "评估的创新概念。
A novel stability-indicating chromatographic quantification of the antiparkinsonian drug safinamide in its pharmaceutical formulation employing HPTLC densitometry and ion-pair HPLC–DAD
Parkinson's disease (PD) emerges as a notable health concern among the elderly population. Safinamide mesylate (SAF) is a novel and emerging add-on therapy in PD treatment. The stability of innovative drug formulations and the development of appropriate stability-indicating methods are of great importance to modern pharmaceutical analysis. The current work has established novel comprehensive stability-indicating chromatographic approaches, HPTLC coupled with densitometric quantification and HPLC–DAD, for the selective assay of SAF in pharmaceutical formulation along with its synthetic precursor impurity; 4-hydroxy benzaldehyde (4-HBD) in presence of its stress induced degradation products. The stability of SAF was investigated under different stress conditions. It was found that SAF is likely to undergo acid, base hydrolysis, and oxidative degradation. Using mass spectrometry and infrared spectroscopy, the structures of the forced degradation products were confirmed and elucidated. The dissolution behavior of Parkimedine® Tablets was also monitored in the FDA suitable medium. Multiple assessment tools were used to evaluate the environmental sustainability of the proposed methods and the reported one. The greenness tools included Complex-GAPI and AGREE metrics. In addition, the innovative concepts of "blueness" and "whiteness" evaluation were incorporated through the newly introduced BAGI and RGB12 algorithms, respectively.
期刊介绍:
BMC Chemistry, formerly known as Chemistry Central Journal, is now part of the BMC series journals family.
Chemistry Central Journal has served the chemistry community as a trusted open access resource for more than 10 years – and we are delighted to announce the next step on its journey. In January 2019 the journal has been renamed BMC Chemistry and now strengthens the BMC series footprint in the physical sciences by publishing quality articles and by pushing the boundaries of open chemistry.