防风色原酮类成分的近红外光谱定量分析(1)
摘要 目的:本文建立了能快速测定防风中升麻素、4种色原酮含量之和的近红外光谱定量模型。方法:用高效液相色谱法测定55批防风饮片的4种色原酮的含量作为参考值,结合偏最小二乘回归法(PLS)建立回归模型。筛选了不同的光谱预处理方法、波段及最佳因子数,最终模型通过相关系数(R2)、预测均方根误差(RMSEP)和校正均方差(RMSEC)来评估其稳健性。结果:升麻素的最佳RMSEP值、RMSEC值、R2分别为0.025 0、0.024 0、0.949 9,4种色原酮含量总和的最佳RMSEP值、RMSEC值、R2分别为0.2460、0.1720、0.9110。结论:本研究建立的近红外光谱定量模型较准确,可用于对防风质量的快速检测。
关键词 防风;近红外;质量;色原酮;升麻苷;升麻素;5-O-甲基维斯阿米醇苷;亥茅酚苷
Quantitative Analysis of Chromones in Saposhnikoviae Radix by Near Infrared Spectroscopy
Xue Xue,Xiong Hui,Liu Mengnan,Qu Wenjia,Jia Tianying,Wang Haili,Xin Jieping,Xu Xinfang,Li Xiangri
(School of Chinese Pharmacy,Beijing University of Chinese Medicine,Beijing 102488,China)
Abstract Objective:To rapidly establish the detection method for cimifugin and the amounts of four chromones in Saposhnikoviae Radix by near infrared spectroscopy. Methods:The contents of four chromones of 55 batches of Saposhnikoviae Radix was determined by high performance liquid chromatography as reference value. Combined with partial least squares regression(PLS),the regression model was established. Different spectral pretreatment methods,wave ranges and optimal factors were selected. The stability of the models were evaluated by R2,RMSEP and RMSEC. Results:The optimum RMSEP values,RMSEC values and R2 values of cimifugin were 0.025 0,0.024 0 and 0.949 9,respectively. The optimum RMSEP values,RMSEC values and R2 values of the amounts of four chromones were 0.2460,0.1720 and 0.9110,respectively. Conclusion:The NIR quantitative models established in this study are accurate and can be used for rapid detection of quality of Saposhnikoviae Radix.
Key Words Saposhnikoviae Radix; Near-infrared; Quality; Chromone; Prim-O-glucosyl-cinmifugin; Cimifugin; 4-O-β-D-glucosyl-5-O-methylvisamminol; Sec-O-glucosylhamaudol
中圖分类号:R284文献标识码:Adoi:10.3969/j.issn.1673-7202.2019.03.011
防风为伞形科植物防风Saposhnikovia Divaricata(Turcz.)Schischk.的干燥根[1],其药性辛、甘,微温;归膀胱、肝、脾经。具有祛风解表,胜湿止痛,止痉的功效。防风始载于《神农本草经》并被列为上品,现主要产于黑龙江、吉林、辽宁、内蒙古、河北等省区,是临床常用大品种,应用广泛。防风化学成分复杂,主要有色原酮类、香豆素类、多糖类、有机酸类、挥发油等成分,现代药理实验表明,色原酮类化合物具有良好的解热、抗炎等活性[2],升麻苷、升麻素、5-O-甲基维斯阿米醇苷、亥茅酚苷(下文简称“4种色原酮”)是防风中主要的色原酮类成分,常被作为指标性成分评价防风饮片的质量[3]。其中升麻素是防风的主要药效成分及入血成分,也是升麻苷和5-O-甲基维斯阿米醇苷的苷元,二者在血中转化为升麻素从而发挥药效[4],因此升麻素对于说明防风饮片的品质具有重要的意义。
《中华人民共和国药典》(2015年版)中规定采用高效液相色谱法测定升麻苷和5-O-甲基维斯阿米醇苷的含量之和,该方法需要对样品进行复杂的前处理,分析时间较长,成本较高,易造成污染,无法满足对样品快速测定和在线检测的要求。近红外光谱技术是近年来在中药领域应用广泛的新技术,它是将化学计量学技术、近红外光谱检测技术和基础测量技术相结合的新方法,具有绿色、无损、快速、无需前处理等优势。因此本文利用近红外光谱技术,结合偏最小二乘法,建立防风饮片中升麻素、4种色原酮总和的定量分析模型,达到快速测定升麻素、4种色原酮之和的含量的目的,为防风饮片的质量检测提供快捷简便的新方法。, http://www.100md.com(薛雪 熊慧 刘梦楠 屈文佳 贾天颖 王海丽 辛洁萍 徐新房 李向日)
关键词 防风;近红外;质量;色原酮;升麻苷;升麻素;5-O-甲基维斯阿米醇苷;亥茅酚苷
Quantitative Analysis of Chromones in Saposhnikoviae Radix by Near Infrared Spectroscopy
Xue Xue,Xiong Hui,Liu Mengnan,Qu Wenjia,Jia Tianying,Wang Haili,Xin Jieping,Xu Xinfang,Li Xiangri
(School of Chinese Pharmacy,Beijing University of Chinese Medicine,Beijing 102488,China)
Abstract Objective:To rapidly establish the detection method for cimifugin and the amounts of four chromones in Saposhnikoviae Radix by near infrared spectroscopy. Methods:The contents of four chromones of 55 batches of Saposhnikoviae Radix was determined by high performance liquid chromatography as reference value. Combined with partial least squares regression(PLS),the regression model was established. Different spectral pretreatment methods,wave ranges and optimal factors were selected. The stability of the models were evaluated by R2,RMSEP and RMSEC. Results:The optimum RMSEP values,RMSEC values and R2 values of cimifugin were 0.025 0,0.024 0 and 0.949 9,respectively. The optimum RMSEP values,RMSEC values and R2 values of the amounts of four chromones were 0.2460,0.1720 and 0.9110,respectively. Conclusion:The NIR quantitative models established in this study are accurate and can be used for rapid detection of quality of Saposhnikoviae Radix.
Key Words Saposhnikoviae Radix; Near-infrared; Quality; Chromone; Prim-O-glucosyl-cinmifugin; Cimifugin; 4-O-β-D-glucosyl-5-O-methylvisamminol; Sec-O-glucosylhamaudol
中圖分类号:R284文献标识码:Adoi:10.3969/j.issn.1673-7202.2019.03.011
防风为伞形科植物防风Saposhnikovia Divaricata(Turcz.)Schischk.的干燥根[1],其药性辛、甘,微温;归膀胱、肝、脾经。具有祛风解表,胜湿止痛,止痉的功效。防风始载于《神农本草经》并被列为上品,现主要产于黑龙江、吉林、辽宁、内蒙古、河北等省区,是临床常用大品种,应用广泛。防风化学成分复杂,主要有色原酮类、香豆素类、多糖类、有机酸类、挥发油等成分,现代药理实验表明,色原酮类化合物具有良好的解热、抗炎等活性[2],升麻苷、升麻素、5-O-甲基维斯阿米醇苷、亥茅酚苷(下文简称“4种色原酮”)是防风中主要的色原酮类成分,常被作为指标性成分评价防风饮片的质量[3]。其中升麻素是防风的主要药效成分及入血成分,也是升麻苷和5-O-甲基维斯阿米醇苷的苷元,二者在血中转化为升麻素从而发挥药效[4],因此升麻素对于说明防风饮片的品质具有重要的意义。
《中华人民共和国药典》(2015年版)中规定采用高效液相色谱法测定升麻苷和5-O-甲基维斯阿米醇苷的含量之和,该方法需要对样品进行复杂的前处理,分析时间较长,成本较高,易造成污染,无法满足对样品快速测定和在线检测的要求。近红外光谱技术是近年来在中药领域应用广泛的新技术,它是将化学计量学技术、近红外光谱检测技术和基础测量技术相结合的新方法,具有绿色、无损、快速、无需前处理等优势。因此本文利用近红外光谱技术,结合偏最小二乘法,建立防风饮片中升麻素、4种色原酮总和的定量分析模型,达到快速测定升麻素、4种色原酮之和的含量的目的,为防风饮片的质量检测提供快捷简便的新方法。, http://www.100md.com(薛雪 熊慧 刘梦楠 屈文佳 贾天颖 王海丽 辛洁萍 徐新房 李向日)
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