Development and Validation of a Simple Stability-Indicating HPLC Method for the Quantitation of Acyclovir in Pharma-ceuticals and Novel Nanoformulation

Analytical Chemistry Letters Pub Date : 2023-03-04 DOI:10.1080/22297928.2023.2213262

Vishal U. Mane, Bhaskar Kurangi, Neha Bhasagi, S. Patil, Moazzim Soudagar, Umesh Patil

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Abstract

Abstract Acyclovir has been shown to have therapeutic advantages in the management of different viral diseases. Owing to its tremendous and attractive therapeutic applications, a quick, precise, and specific HPLC method was developed and validated in compliance with ICH guidelines. The chromatographic separation was carried out with Column C18 (4.6mm X 250mm), (5 microns) by using 0.1% orthophosphoric acid (OPA) buffer: Methanol (55:45) as mobile phase, with a flow rate of 1 ml/min and at a wavelength of 253 nm. The novel analytical technique showed a peak of acyclovir at 2.4 min. The method was identified to be linear over the concentration ranging from 2 to 14 μg/ml. The method developed was accurate (with 98% recovery), precise, and robust. The developed method was also used for the estimation of acyclovir in various commercial formulations and acyclovir-loaded cubosomal nanoformulation. Furthermore, forced degradation studies for acyclovir were estimated under different stress conditions. In the presence of degradation products, the acyclovir peak was unaffected indicating the suitability of the developed method. Therefore, the developed method could be applied to the estimation of acyclovir in acyclovir-containing formulations. GRAPHICAL ABSTRACT

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新型纳米制剂中阿昔洛韦的高效液相色谱定量方法的建立与验证

摘要阿昔洛韦已被证明在不同病毒性疾病的治疗中具有治疗优势。由于高效液相色谱的巨大和有吸引力的治疗应用，开发了一种快速、精确和特异性的高效液相色谱方法，并根据ICH指南进行了验证。色谱分离采用C18柱(4.6mm X 250mm)，(5微米)，流动相为0.1%正磷酸(OPA)缓冲液:甲醇(55:45)，流速为1 ml/min，波长为253 nm。在2 ~ 14 μg/ml的浓度范围内，无环鸟苷的含量在2.4 min达到峰值。该方法准确(回收率98%)、精密度高、稳健性好。该方法还可用于各种商业制剂和负载阿昔洛韦的立方体纳米制剂中阿昔洛韦的估计。此外，在不同的胁迫条件下，对阿昔洛韦进行了强制降解研究。在存在降解产物的情况下，无环鸟苷峰不受影响，表明所开发的方法的适用性。因此，该方法可用于含阿昔洛韦制剂中阿昔洛韦的含量估算。图形抽象

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来源期刊

Analytical Chemistry Letters

CiteScore

2.30

自引率

0.00%

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