Influence of Excipients and Pressing Force on the Impurity Content of N-(4-aminobenzoyl)-L-glutamic Acid in Folic Acid Drugs During Storage

Q3 Pharmacology, Toxicology and Pharmaceutics

Drug Development and Registration Pub Date : 2023-05-27 DOI:10.33380/2305-2066-2023-12-2-55-60

N. A. Obraztsova, A. A. Samsonov, M. A. Kovtunenko, V. N. Shmeleva, N. A. Golubeva

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Abstract

Introduction. Excipients, impurities contained in them, and sorbed water are one of the reasons for degradation of the active pharmaceutical substance (API). Excipients effect should be especially evaluated for moisture-sensitive APIs. Folic acid (FA) is an important vitamin for humans. It hydrolyze in water under the action of UV irradiation and main decomposition product is N-(p-aminobenzoyl)glutamic acid (impurity A). We found an increase in the content of impurity A during FA film-coated tablets storage in PVC-film and aluminum foil packaging in the absence of UV irradiation. Aim. Investigate the effect of excipients and parameters of the production process on the content of impurity A during storage of FA drugs. Materials and methods. The FA tablets containing 1.0 mg of API produced by direct compression technology were the objects of study. The pressing force (PF) was varied from 5 to 15 kN. Results and discussion. We found that content of impurity A in tablets containing 93.0 % lactose monohydrate and obtained with PF above 10 kN exceeded limit value during storage for 300 days. Probably lactose simultaneously acts both as a source of free water and as a catalyst for FA hydrolysis. Since the interaction of lactose and FA occurs in the solid phase, pressing accelerates hydrolysis by increasing the contact area of substances and the mobility of water molecules. Conclusion. We found that lactose monohydrate probably is the main cause of FA hydrolysis in drugs. Independently of the mechanism of its action, an increase in the PF above 10 kN leads to an increase in the rate of FA hydrolysis. This is due to an increase in the mobility of water molecules and the contact area between the excipient and API. We have selected the optimum pressure range (5–10 kN) for tablet mix containing lactose monohydrate and FA.

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赋形剂和加压力对叶酸药物贮存中N-(4-氨基苯甲酰)- l -谷氨酸杂质含量的影响

介绍。赋形剂、其中所含的杂质和吸附的水是原料药降解的原因之一。应特别评价对水分敏感的原料药的赋形剂作用。叶酸(FA)是一种重要的人体维生素。在紫外线照射下在水中水解，主要分解产物为N-(对氨基苯甲酰)谷氨酸(杂质A)。我们发现在没有紫外线照射的情况下，FA膜包衣片在pvc膜和铝箔包装中储存时杂质A的含量有所增加。的目标。考察了辅料和生产工艺参数对FA类药物贮存过程中杂质A含量的影响。材料和方法。以直接压缩法生产的含有1.0 mg原料药的FA片为研究对象。压紧力(PF)为5 ~ 15kn。结果和讨论。结果表明，在PF大于10 kN的条件下，含有93.0%一水乳糖的片剂在贮存300 d时杂质A含量超标。乳糖可能同时作为游离水的来源和FA水解的催化剂。由于乳糖和FA的相互作用发生在固相，因此挤压通过增加物质的接触面积和水分子的流动性来加速水解。结论。我们发现一水乳糖可能是导致药物中FA水解的主要原因。不考虑其作用机制，增加10 kN以上的PF会导致FA水解速率的增加。这是由于水分子的流动性和赋形剂与原料药之间的接触面积的增加。我们选择了含有一水乳糖和FA的片剂混合的最佳压力范围(5-10 kN)。

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来源期刊

Drug Development and Registration Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

8 weeks