Bioanalytical Method Development and Validation and forced degradation of Sitagliptin and determination of Pharmacokinetic application study in Human Plasma by RP-HPLC method

Journal of Drug Delivery and Therapeutics Pub Date : 2024-05-15 DOI:10.22270/jddt.v14i5.6559

Shanthi Diraviyam Shanmuga Kumar, Mahendar Kotte, N. K. Rao, Vollem Jyothi, Juttu Pavani, Ashritha Shivani, P. S. Sundar

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Abstract

In the present investigation, an attempt was made for the development, validation, forced degradation and pharmacokinetic application of sitagliptin in the human plasma spiking studies by UV - HPLC method. The experimentation was developed based on the extensive literature survey and ascertained by the statistical parameters of the sampling. A simplified, accurate method was created by the liquid chromatographic system from Shimadazu LC 20AD consisting of manual injection. The optimized chromatogram was obtained with acetonitrile in the isocratic mobile phase method at a 1.0 mL/min flow rate. A thermo C-8 column (4.6X250mm,5μm) was used as a stationary phase, and 265.0nm was selected as the detection wavelength with the aid of a UV-Vis detector. The proposed method was validated as per ICH guidelines. The technique was linear in the range of 10-50μg/mL with correlation coefficient R2 = 0.9746, respectively. Recovery studies postulated that % RSD 19.14, 3 & 9.95 respectively. Injection repeatability values were found to be % RSD 17 & 10.63 for intraday and interday, respectively. Stress degradation studies revealed that sitagliptin degrades more rapidly when subjected to 0.1 NaoH. Human plasma spiking studies reported 3.02 ng/mL at 3.02+/-60 min of C and T max, respectively. Keywords: Sitagliptin, Method development, HPLC, Validation, Stress degradation studies, Human plasma spiking studies

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利用 RP-HPLC 方法开发和验证西他列汀的生物分析方法，并对其进行强制降解和确定人血浆中的药代动力学应用研究

本研究尝试采用紫外-高效液相色谱法对西他列汀进行开发、验证、强制降解和药代动力学应用于人体血浆加标研究。实验是在大量文献调查的基础上进行的，并通过采样的统计参数进行了确认。岛津 LC 20AD 液相色谱系统采用手动进样方式，建立了简化、准确的方法。优化后的色谱图以乙腈为等度流动相，流速为 1.0 mL/min。固定相为 thermo C-8 色谱柱（4.6X250 毫米，5 微米），检测波长为 265.0 纳米，检测器为紫外-可见检测器。根据 ICH 指南对所提出的方法进行了验证。该技术在 10-50μg/mL 范围内线性关系良好，相关系数 R2 = 0.9746。回收率研究表明，% RSD 分别为 19.14、3 和 9.95。注射重复性研究发现，日内和日间的 RSD 分别为 17%和 10.63%。应力降解研究表明，西他列汀在 0.1 NaoH 条件下降解更快。人体血浆加标研究报告显示，在3.02+/-60分钟的C和T最大值分别为3.02纳克/毫升。关键词西他列汀方法开发高效液相色谱验证应力降解研究人体血浆添加研究

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Journal of Drug Delivery and Therapeutics

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