化学工程师
化學工程師
화학공정사
CHEMICAL ENGINEER
2014年
7期
29-31
,共3页
蔡明宸%张北灿%鲁雅文%夏林波%朱江%邓仕任
蔡明宸%張北燦%魯雅文%夏林波%硃江%鄧仕任
채명신%장북찬%로아문%하림파%주강%산사임
火麻仁%胡芦巴碱%高效液相色谱法%中国药典
火痳仁%鬍蘆巴堿%高效液相色譜法%中國藥典
화마인%호호파감%고효액상색보법%중국약전
Cannabis semen%trigonelline%HPLC%Chinese Pharmacopoeia
目的:建立高效液相色谱测定火麻仁药材中胡芦巴碱含量的方法,为2015版药典火麻仁指标性成分的含量测定项提供依据。方法:采用Hypersil氨基柱,流动相乙腈-水(80∶20,V∶V),检测波长265nm。结果:胡芦巴碱进样量在0.104~1.04μg范围内线性关系良好,r=0.9999(n=6),加样回收率100.7%,RSD=1.56%(n=9);10批火麻仁药材中胡芦巴碱的含量为0.6504~0.9931mg·g-1。结论:胡芦巴碱为火麻仁药材及饮片中的特征成分,其提取及含测方法操作简便,结果可靠,可作为火麻仁药材质量控制的指标性成分。
目的:建立高效液相色譜測定火痳仁藥材中鬍蘆巴堿含量的方法,為2015版藥典火痳仁指標性成分的含量測定項提供依據。方法:採用Hypersil氨基柱,流動相乙腈-水(80∶20,V∶V),檢測波長265nm。結果:鬍蘆巴堿進樣量在0.104~1.04μg範圍內線性關繫良好,r=0.9999(n=6),加樣迴收率100.7%,RSD=1.56%(n=9);10批火痳仁藥材中鬍蘆巴堿的含量為0.6504~0.9931mg·g-1。結論:鬍蘆巴堿為火痳仁藥材及飲片中的特徵成分,其提取及含測方法操作簡便,結果可靠,可作為火痳仁藥材質量控製的指標性成分。
목적:건립고효액상색보측정화마인약재중호호파감함량적방법,위2015판약전화마인지표성성분적함량측정항제공의거。방법:채용Hypersil안기주,류동상을정-수(80∶20,V∶V),검측파장265nm。결과:호호파감진양량재0.104~1.04μg범위내선성관계량호,r=0.9999(n=6),가양회수솔100.7%,RSD=1.56%(n=9);10비화마인약재중호호파감적함량위0.6504~0.9931mg·g-1。결론:호호파감위화마인약재급음편중적특정성분,기제취급함측방법조작간편,결과가고,가작위화마인약재질량공제적지표성성분。
Objective: An HPLC method for determination of trigonelline in fruit of Cannabis sativa was devel-oped, to provide a quality control method for 2015 edition of Chinese Pharmacopoeia. Methods: The chromatogra-phy was carried out on a Hypersil amino column(250mm×4.6mm, 5μm)with acetonitrile-water(80:20, V:V)as the mobile phase, the detection wavelength was set at 265nm. Results: Trigonelline could be successfully deter-mined and the linear rang was 0.104~1.04μg (r=0.9999). The average recoveries (n = 9)of the trigonelline was 100.7%,RSD=1.56%. The content of trigonelline in 10 batches was 0.6504~0.9931mg ·g -1. Conclusion:Trigonelline was indeed the specific ingredient in fruit and seed of Cannabis sativa. The method is accurate, reli-able and sensitive for quality control of fruit of cannabis sativa.
