首页> 外文期刊>Pharmaceutical research >Analysis methods of polysorbate 20: A new method to assess the stability of polysorbate 20 and established methods that may overlook degraded polysorbate 20.
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Analysis methods of polysorbate 20: A new method to assess the stability of polysorbate 20 and established methods that may overlook degraded polysorbate 20.

机译:聚山梨酯20的分析方法:一种评估聚山梨酯20稳定性的新方法以及已建立的可能忽略降解聚山梨酯20的方法。

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摘要

PURPOSE: Polysorbate 20 is a commonly used excipient in biopharmaceutical formulations, some of which may have an enzymatic activity. The action(s) of polysorbate 20 in biopharmaceutical formulations as a stabilizer require this surfactant to maintain its intact structure. This manuscript evaluates a new analytic method for the analysis of polysorbate 20 degradation in the format of a biopharmaceutical formulation and makes a comparison with several established methods of analysis. METHODS: Polysorbate 20 samples were degraded in a controlled environment utilizing the enzyme pancreatic lipase to generate degradants that included lauric acid and the sorbitan polyoxyethylene side chain. A new method was developed with sufficient sensitivity to analyze the degraded solutions. Lauric acid was derivatized with the fluorescent reagent 9-anthryldiazomethane to form 9-anthrylmethylethyl ester. The derivatized lauric acid was separated by reversed-phase chromatography and detected by fluorescence or UV spectroscopy. Three established methods utilized to measure polysorbate 20 were evaluated for their ability to detect degraded polysorbate 20. These methods were: (1) fluorescence analysis with N-phenyl-1-naphthylamine fluorescent dye; (2) UV spectroscopy with ammonium cobaltothiocyanate colorimetric reagent; and (3) nuclear magnetic resonance (NMR). RESULTS: Polysorbate 20 incubation with lipase resulted in degraded polysorbate 20 as determined by the derivatized lauric acid assay. The UV spectroscopy assay utilizing ammonium cobaltothiocyanate reagent was not able to detect the degradation of polysorbate 20 in the samples. The fluorescence method of analysis detected polysorbate 20 degradation as an approximate 50% decrease in micelles in comparison to standard nondegraded polysorbate 20 solutions. NMR analysis resulted in similar proton peak areas for both degraded and nondegraded polysorbate 20 samples. NMR spectra did contain minor differences between the samples. CONCLUSIONS: It is essential to choose the appropriate method of polysorbate 20 evaluation to assess the content, stability, and compatibility of a formulation. Current established methods to assess polysorbate 20 may overlook and do not necessarily monitor the potential degradation of this surfactant, which results in the formation of lauric acid. Because this type of degradation may occur in a formulation by an enzymatically active biopharmaceutical, a new method of analysis has been established.
机译:用途:聚山梨酯20是生物药物制剂中常用的赋形剂,其中一些可能具有酶促活性。在生物药物制剂中聚山梨酯20作为稳定剂的作用需要该表面活性剂保持其完整结构。该手稿评估了一种用于分析生物制药制剂形式的聚山梨酯20降解的新分析方法,并与几种已建立的分析方法进行了比较。方法:在受控环境中利用胰脂肪酶酶降解聚山梨酯20个样品,以产生包括月桂酸和脱水山梨聚糖聚氧乙烯侧链的降解物。开发了一种新方法,该方法具有足够的灵敏度来分析降解溶液。用荧光试剂9-蒽重氮甲烷将月桂酸衍生化以形成9-蒽甲基甲基酯。通过反相色谱分离衍生化的月桂酸,并通过荧光或UV光谱法检测。评价了用于测量聚山梨酯20的三种已建立方法检测降解聚山梨酯20的能力。这些方法是:(1)用N-苯基-1-萘胺荧光染料进行荧光分析; (2)用硫代钴酸铵比色试剂进行紫外光谱分析; (3)核磁共振(NMR)。结果:通过衍生化的月桂酸测定法测定,将聚山梨酯20与脂肪酶一起孵育会导致降解的聚山梨酯20降解。利用钴硫氰酸钴铵试剂进行的紫外光谱分析不能检测样品中聚山梨酯20的降解。与标准的未降解的聚山梨醇酯20溶液相比,分析的荧光方法检测到聚山梨醇酯20的降解以胶束的形式降低了约50%。 NMR分析得出降解和未降解的聚山梨酯20样品的质子峰面积相似。 NMR光谱确实在样品之间包含微小差异。结论:选择合适的聚山梨酯20评估方法以评估制剂的含量,稳定性和相容性至关重要。当前建立的评估聚山梨酯20的方法可能会忽略并且不一定监测该表面活性剂的潜在降解,这导致月桂酸的形成。由于通过酶活性生物药物在制剂中可能发生这种降解,因此建立了一种新的分析方法。

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