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| Quality standard for Kangbingduganmao Granules |
| XU Yuan ZHANG Tingting ZHANG Ruitao WU Dan DANG Xueliang LIU Mei ZHANG Yan |
| Department of Pharmacy, the Second Affiliated Hospital of Air Force Medical University, Shaanxi Province, Xi′an 710038, China |
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Abstract Objective To establish the quality standard of Kangbingduganmao Granules, to better control the product quality and to provide guarantee for clinical safety application. Methods Bupleuri Radix, Lonicerae Japonicae Caulis and Isatidis Radix in Kangweiganmao Granules were identified qualitatively by thin layer chromatography (TLC). The content of loganin, the main effective component of Lonicerae Japonicae Caulis was determined by high performance liquid chromatography. The ODS-3 was used as the column and acetonitrile-water (12∶88) was used as the mobile phase, the detection wavelength was 236 nm. Results TLC spots were clear, the resolution was good, specificity was strong, and negative control had no interference. The loganin in the range of 4.72-236.00 μg/mL showed good linear relationship with the peak area (r = 0.9999). The average recovery rate was 100.57% and RSD was 1.19% (n = 6). The determination results of three batches of samples were 0.4335, 0.3741 and 0.3142 mg/g respectively. Conclusion The established qualitative and quantitative methods are accurate, reliable and reproducible, and can be used as quality control methods for antiviral cold granules.
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[1] 中华人民共和国药典[S].2015年版.四部.北京:中国医药科技出版社:57-59,59-61,371-373.
[2] 中华人民共和国药典[S].2015年版.一部.北京:中国医药科技出版社:21,94-95,193,205,224,280.
[3] 鲁思爱.忍冬藤的化学成分及其药理应用研究进展[J].临沂大学学报,2012,34(3):132-134.
[4] 颜美玲,杨柳,侯阿娇,等.柴胡化学成分及药理作用研究进展[J].中医药信息,2018,35(5):103-109.
[5] 马云,王尧尧,张玉,等.金银花、忍冬藤药材质量标准研究进展[J].辽宁中医药大学学报,2018,20(8):70-77.
[6] 马杰,孙焱,丁野,等.复方石淋通胶囊质量标准的修订研究[J].中国药师,2015,18(8):1284-1286.
[7] 郭静,周春玲.口腔炎喷雾剂的质量标准研究[J].中国药师,2013,16(3):376-378.
[8] 徐英辉,申茹,郭玉岩.忍冬藤胶囊的制备及其质量标准[J].中成药,2019,41(8):1790-1794.
[9] 高辉,于英俊,沈涛,等.忍冬藤饮片质量标准研究[J].药学研究,2018,37(6):332-334,364.
[10] 赖克道,刘元,文志云,等.薄层色谱法定性鉴别小柴胡颗粒中的柴胡、甘草[J].广西医学,2009,31(6):886-887.
[11] 郭智,彭冰,李宗阳,等.UPLC-QTof -MS测定不同提取条件下柴胡皂苷a和柴胡皂苷d的转化规律[J].天然产物研究与开发.2014,26:716-720.
[12] 王建敏,李伟.板蓝根颗粒中有效成分的测定及药理作用研究进展[J].中国医药导报,2019,16(18):49-52.
[13] 杨春风,孔庆耀,孙铭君.浅谈大青叶的研究进展[J].山东畜牧兽医,2019,40(5):78-80.
[14] 罗芬.大青叶水提物抗甲型流感病毒活性研究[J].新乡医学院学报,2017,34(10):881-884.
[15] 黄远,李菁,徐科一,等.板蓝根抗流感病毒有效成分研究进展[J/OL].中国现代应用药学,2019,36(20):2618-2623.
[16] 刘富康,方士元,曲映红.大青叶粗黄酮提取及其抑菌性研究[J].山东化工,2018,47(21):34-35,38.
[17] 闫峻,顾娟,冯硕,等.大青叶化学成分及抗氧化活性研究[J].质谱学报,2019,40(4):381-390.
[18] 彭婷婷,江勋,周峰.复方板蓝根颗粒及板蓝根的质量研究概况[J].中成药,2017,39(12):2573-2575.
[19] 华之卉,刘栋,李明春.双波长HPLC法同时测定板柴口服液中(R,S)-告依春和绿原酸的含量[J].中国药房,2017,28(27):3853-3855.
[20] 肖雪,马晋芳,罗国安.HPLC法测定板蓝根中抗病毒化学物质组的含量[J].江西中医药,2018,49(11):67-69.
[21] 莫迎.不同的提取方法对板蓝根中(R,S)告依春的影响[J].中医药导报,2011,17(6):89-91. |
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