指纹图谱结合多成分含量测定的猪苓配方颗粒质量评价

    Quality Evaluation of Polyporus Formula Granules Based on Fingerprint and Multi-component Determination

    • 摘要: 目的 建立猪苓配方颗粒质量评价方法,综合评价不同厂家产品质量均一性和稳定性。方法 采用HPLC以Shim-pack GIST C18-AQ (4.6 mm×150 mm,3 μm)为色谱柱,乙腈-水溶液为流动相,梯度洗脱,流速1.0 mL·min–1,检测波长为350 nm (0~3 min)和250 nm (3~35 min),柱温30℃,构建不同厂家猪苓配方颗粒指纹图谱,指认共有峰,并进行相似度评价、聚类分析;采用相同HPLC测定4种活性成分含量,对16批样品进行质量分析和评价。结果 猪苓配方颗粒指纹图谱共标定14个共有峰,指认出其中6个成分,分别为2号峰(尿苷)、4号峰(鸟苷)、6号峰(腺苷)、12号峰(猪苓酮B)、13号峰(猪苓酮A)、14号峰(猪苓酮C);16批样品指纹图谱相似度为0.609~0.982;聚类分析将全部样品分为2大类;鸟苷、腺苷、猪苓酮B、猪苓酮A在各自质量浓度范围内线性关系良好,r均≥0.999 7;仪器精密度、重复性、稳定性试验的RSD均<3%;平均加样回收率分别为98.22%,99.32%,99.56%,99.15%,RSD均<3%(n=6)。16批样品中,鸟苷、腺苷、猪苓酮B、猪苓酮A含量分别为6.326~28.006,13.392~44.058,10.324~30.335,9.270~26.964 μg·g–1结论 不同厂家样品存在较大的质量差异,本研究建立的指纹图谱结合多指标性成分含量测定方法可全面、准确评价猪苓配方颗粒内在质量,为整体提升该药品质量提供依据。

       

      Abstract: OBJECTIVE To establish the quality evaluation method of Polyporus formula granules, and to comprehensive evaluate the quality uniformity and stability of products from different manufacturers. METHODS The fingerprint of Polyporus formula granules was determined by HPLC. Shim-pack GIST C18-AQ(4.6 mm×150 mm, 3 μm) was used, mobile phase was acetonitrile-water with gradient elution, volume flow rate was 1.0 mL·min-1, detection wavelength was 350 nm (0-3 min) and 250 nm(3-35 min), column temperature was 30℃. HPLC fingerprints of Polyporus formula granules from different manufacturers were established, common peaks were identified, similarities were evaluated and cluster analysis were performed. HPLC was used to determine the contents of 4 active ingredients, and the quality of 16 batches of samples was analyzed and evaluated. RESULTS The established HPLC fingerprint of Polyporus formula granules defined 14 common peaks and identified 6 common components. They were peak 2(uridine), peak 4(guanosine), peak 6(adenosine), peak 12(polyporusteron B), peak 13(polyporusteron A), peak 14(polyporusteron C). The similarity of 16 batches of samples were 0.609-0.982, and could be clustered into 2 categories by cluster analysis. Guanosine, adenosine, polyporusteron B and polyporusteron A all showed good linear relationships(r ≥ 0.999 7), RSDs of instrument precision, stability and reproducibility tests were <3%. The average recoveries were 98.22%, 99.32%, 99.56%, 99.15%, RSD<3%(n=6). The contents of guanosine, adenosine, polyporusteron B, polyporusteron A in 16 batches of samples were 6.326-28.006, 13.392-44.058, 10.324-30.335, 9.270-26.964 μg·g-1.CONCLUSION There is considerable quality difference among different manufacturers. The established fingerprint combine with the compound determination can comprehensively and accurately evaluate the internal quality of Polyporus formula granules, and provide a basis for the overall improvement of the quality.

       

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