利用 RP-HPLC 开发和验证同时估算多草药制剂 JKC 中七种标记物的分析方法

IF 3.4 Q2 PHARMACOLOGY & PHARMACY Future Journal of Pharmaceutical Sciences Pub Date : 2024-07-29 DOI:10.1186/s43094-024-00670-w
Lakshminarayana Misro, Thirupataiah Boini, Rahul Maurya, Thulasi Radhakrishnan, K. S. Rohith, Vijay Kumar, Preeti Sharma, Arjun Singh, Ravindra Singh, Naryanam Srikanth, Rabinarayan Acharya
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Detection was performed at the wavelength (λ) of 229 nm for AG, 343 nm for PP, 279 nm for P-I, 264 nm for P-II, 254 nm for AC, and 280 nm for both 6S and 6G by HPLC–PDA detector.</p><h3>Results</h3><p>The marker compounds in JKC formulations were observed in different retention times (R<sub>t</sub>) i.e. AG at 3.060 ± 0.01 min, PP at 5.460 ± 0.03 min, P-I at 2.789 ± 0.02 min, P-II at 2.553 ± 0.03 min, AC at 10.951 ± 0.02 min, 6S at 6.302 ± 0.03 min, and 6G at 4.111 ± 0.02 min respectively. The proposed method was validated with acceptable linearity (r<sup>2</sup> 0.9995–0.9999), precision, robustness, ruggedness, and accuracy (RSD &lt; 2%) under optimum conditions. The limit of detection and quantification of bioactive markers were as: AG (1.386; 4.200 ppm), PP (2.033; 6.161 ppm), P-I (2.822; 8.553 ppm), P-II (2.538; 7.691 ppm), AC (0.269; 0.815 ppm), 6G (0.158; 0.480 ppm), 6S (0.188; 0.569 ppm). The amount (mg/g) of bioactive markers detected and estimated in plants and formulation were as: AG (41.282 ± 0.48; 10.06 ± 0.18), PP (53.81 ± 0.25, 13.82 ± 0.37 in PN, PL; 4.27 ± 0.07), P-I (15.97 ± 0.01; 0.48 ± 0.003), P-II (63.24 ± 0.35; 2.31 ± 0.006), AC (0.42 ± 0.01; 0.36 ± 0.006), 6G (0.71 ± 0.03; 0.16 ± 0.001), and 6S (2.64 ± 0.09; 0.12 ± 0.004) respectively. Method was found to be rugged and robust. 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引用次数: 0

摘要

采用C18 (25 × 0.46 cm, i.d,5 µm)色谱柱,建立了同时测定多草药制剂JKC中7种标记物的RP-HPLC方法。流动相为甲醇:水(80:20),流速为 1.0 mL/min,保留时间为 2 至 11 分钟。采用高效液相色谱法定量检测了 JKC 制剂中的标记化合物,即穿心莲内酯 (AG)、胡椒碱 (PP)、苦内酯-I (P-I)、苦内酯-II (P-II)、α-青霉烯 (AC)、6-肖高醇 (6S) 和 6-姜酚 (6G)。HPLC-PDA 检测器的检测波长(λ)为:AG 229 nm、PP 343 nm、P-I 279 nm、P-II 264 nm、AC 254 nm、6S 和 6G 280 nm。JKC 制剂中的标记化合物的保留时间(Rt)各不相同,即 AG 为 3.060 ± 0.01 分钟,PP 为 5.460 ± 0.03 分钟,P-I 为 2.789 ± 0.02 分钟,P-II 为 2.553 ± 0.03 分钟,AC 为 10.951 ± 0.02 分钟,6S 为 6.302 ± 0.03 分钟,6G 为 4.111 ± 0.02 分钟。该方法在最佳条件下具有可接受的线性(r2 0.9995-0.9999)、精密度、稳健性、耐用性和准确度(RSD < 2%)。生物活性标记物的检出限和定量限分别为AG(1.386;4.200 ppm)、PP(2.033;6.161 ppm)、P-I(2.822;8.553 ppm)、P-II(2.538;7.691 ppm)、AC(0.269;0.815 ppm)、6G(0.158;0.480 ppm)、6S(0.188;0.569 ppm)。在植物和制剂中检测和估算的生物活性标记物的含量(毫克/克)为AG(41.282 ± 0.48;10.06 ± 0.18)、PP(53.81 ± 0.25,PN、PL 为 13.82 ± 0.37;4.27 ± 0.07)、P-I(15.97 ± 0.01;0.48 ± 0.003)、P-II(63.24±0.35;2.31±0.006)、AC(0.42±0.01;0.36±0.006)、6G(0.71±0.03;0.16±0.001)和 6S(2.64±0.09;0.12±0.004)。该方法坚固耐用。所有验证参数的结果均符合 ICH 指南的限值要求。所提出的方法快速、准确、经济、特异,可用于同时定量分析成分(药材)和 JKC 配方中的七种主要生物活性标记物。
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Analytical method development and validation for simultaneous estimation of seven markers in polyherbal formulation JKC by using RP-HPLC

Background

The RP-HPLC method has been established to simultaneous estimation of seven markers in polyherbal formulation JKC using the C18 (25 × 0.46 cm, i.d,5 µm) column. The mobile phase consisted of methanol: water (80:20) at a flow rate of 1.0 mL/min and observed retention time at 2 to 11 min with sharp points. The marker compounds viz. Andrographolide (AG), Piperine (PP), Picroside-I (P-I), Picroside-II (P-II), α-Cyprone (AC), 6-Shogaol (6S), and 6-Gingerol (6G) were quantified in JKC formulations by HPLC method. Detection was performed at the wavelength (λ) of 229 nm for AG, 343 nm for PP, 279 nm for P-I, 264 nm for P-II, 254 nm for AC, and 280 nm for both 6S and 6G by HPLC–PDA detector.

Results

The marker compounds in JKC formulations were observed in different retention times (Rt) i.e. AG at 3.060 ± 0.01 min, PP at 5.460 ± 0.03 min, P-I at 2.789 ± 0.02 min, P-II at 2.553 ± 0.03 min, AC at 10.951 ± 0.02 min, 6S at 6.302 ± 0.03 min, and 6G at 4.111 ± 0.02 min respectively. The proposed method was validated with acceptable linearity (r2 0.9995–0.9999), precision, robustness, ruggedness, and accuracy (RSD < 2%) under optimum conditions. The limit of detection and quantification of bioactive markers were as: AG (1.386; 4.200 ppm), PP (2.033; 6.161 ppm), P-I (2.822; 8.553 ppm), P-II (2.538; 7.691 ppm), AC (0.269; 0.815 ppm), 6G (0.158; 0.480 ppm), 6S (0.188; 0.569 ppm). The amount (mg/g) of bioactive markers detected and estimated in plants and formulation were as: AG (41.282 ± 0.48; 10.06 ± 0.18), PP (53.81 ± 0.25, 13.82 ± 0.37 in PN, PL; 4.27 ± 0.07), P-I (15.97 ± 0.01; 0.48 ± 0.003), P-II (63.24 ± 0.35; 2.31 ± 0.006), AC (0.42 ± 0.01; 0.36 ± 0.006), 6G (0.71 ± 0.03; 0.16 ± 0.001), and 6S (2.64 ± 0.09; 0.12 ± 0.004) respectively. Method was found to be rugged and robust. The results found for all the validation parameters were within the limits according to ICH guidelines.

Conclusion

The proposed method is fast, precise, economic, and specific and used for the simultaneously quantifiable analysis of seven major bioactive markers in the ingredients (herbs) and the JKC formulations.

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来源期刊
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发文量
44
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.
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