Comparative study of UV spectroscopy, RP-HPLC and HPTLC methods for quantification of antiviral drug lamivudine in tablet formulation

IF 3.4 Q2 PHARMACOLOGY & PHARMACY Future Journal of Pharmaceutical Sciences Pub Date : 2024-06-24 DOI:10.1186/s43094-024-00651-z

Komal Somkuwar, Prafulla Sabale, Vaibhav Sawale, Priya Rahangdale

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Abstract

Background

In the current study, estimation of lamivudine (LMU) by UV spectroscopy, reverse-phase HPLC (RP-HPLC) and HPTLC methods in tablet formulation was developed, and comparative studies between the methods were investigated by analytical results and statistical test analysis of variance (ANOVA) to find out best method. In the UV spectral method, LMU was quantified at 271 nm absorption maxima using methanol as the solvent. In the RP-HPLC method, the Shimadzu C18 column (250 mm × 4.6 mm i.d., 5 µm particle size) was employed for chromatographic separation. The mobile phase used consists of methanol: water (70:30 v/v) in an isocratic mode with a 1.0 mL/min flow rate. In the HPTLC method, the chromatogram was developed on a pre-coated plate of silica gel 60 F254 with a mobile phase composition of chloroform: methanol (8:2 v/v). The quantification was performed at an absorbance mode of 271 nm by densitometry. The methods were validated according to the International Conference on Harmonization (ICH) guideline Q2 (R1). The degradation conditions were employed as per ICH guidelines Q1A(R2) and Q1B which include acid, alkaline, neutral, thermal and photostability to determine the intrinsic stability of the drug in varied environmental conditions.

Results

LMU absorption maxima was found to be 271 nm. The retention time of LMU was 3.125 min, and the total analysis time was 5 min. The R_f value of LMU was 0.49–0.62. The methods were linear within 2–12 μg/mL range. The correlation coefficient (r²) for UV, HPLC and HPTLC was 0.9980, 0.9993 and 0.9988, and percent recoveries were calculated as 98.40–100.52%, 99.27–101.18% and 98.01–100.30%, respectively, with percentage relative standard deviation (RSD) less than 2% showing that methods were precise and accurate.

Conclusion

Developed UV, RP-HPLC and HPTLC methods are free from intervention caused by excipients present in tablets and thus can be used for regular quantitative analysis of LMU in tablet formulation. Based on analytical results and statistical tests, ANOVA, it is inferred that the HPLC method is best for LMU quantification tablet formulation due to its high reproducibility, good retention time and sensitivity; it has a higher percent recovery and has less analysis time, i.e., 5 min. The degradation peaks were well separated from the LMU peak indicating stability of the HPLC method.

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紫外光谱法、RP-HPLC 法和 HPTLC 法定量片剂中抗病毒药物拉米夫定的比较研究

背景本研究采用紫外光谱法、反相高效液相色谱法（RP-HPLC）和高效液相色谱法（HPTLC）对片剂中的拉米夫定（LMU）进行了测定，并通过分析结果和统计检验方差分析（ANOVA）对各方法进行了比较研究，以找出最佳方法。在紫外光谱法中，以甲醇为溶剂，LMU 在 271 nm 处的吸收最大值被定量。在 RP-HPLC 方法中，采用岛津 C18 色谱柱（250 毫米×4.6 毫米内径，5 微米粒径）进行色谱分离。流动相为甲醇：水（70:30 v/v），流速为 1.0 mL/min，采用等度模式。在 HPTLC 方法中，色谱图在硅胶 60 F254 预涂层板上显现，流动相为氯仿：甲醇（8:2 v/v）。用密度计在 271 纳米的吸光模式下进行定量。方法根据国际协调会议（ICH）指南 Q2 (R1)进行了验证。降解条件按照 ICH 指南 Q1A(R2) 和 Q1B 进行，包括酸性、碱性、中性、热和光稳定性，以确定药物在不同环境条件下的内在稳定性。LMU 的保留时间为 3.125 分钟，总分析时间为 5 分钟。LMU 的 Rf 值为 0.49-0.62。方法在 2-12 μg/mL 范围内线性良好。紫外、高效液相色谱和高效液相色谱的相关系数（r2）分别为 0.9980、0.9993 和 0.9988，回收率分别为 98.40%-100.52%、99.27%-101.18% 和 98.01%-100.30%，相对标准偏差（RSD）小于 2%，表明方法精密准确。结论所建立的紫外、RP-HPLC 和 HPTLC 方法不受片剂中辅料的干扰，可用于片剂中 LMU 的常规定量分析。根据分析结果和方差分析等统计检验，可以推断 HPLC 方法重现性好、保留时间长、灵敏度高、回收率高、分析时间短（5 分钟），最适合用于片剂中 LMU 的定量分析。降解峰与 LMU 峰分离良好，表明 HPLC 方法稳定。

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Future Journal of Pharmaceutical Sciences PHARMACOLOGY & PHARMACY-

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审稿时长

23 weeks

期刊介绍： Future Journal of Pharmaceutical Sciences (FJPS) is the official journal of the Future University in Egypt. It is a peer-reviewed, open access journal which publishes original research articles, review articles and case studies on all aspects of pharmaceutical sciences and technologies, pharmacy practice and related clinical aspects, and pharmacy education. The journal publishes articles covering developments in drug absorption and metabolism, pharmacokinetics and dynamics, drug delivery systems, drug targeting and nano-technology. It also covers development of new systems, methods and techniques in pharmacy education and practice. The scope of the journal also extends to cover advancements in toxicology, cell and molecular biology, biomedical research, clinical and pharmaceutical microbiology, pharmaceutical biotechnology, medicinal chemistry, phytochemistry and nutraceuticals.