Faculty of Pharmacy, Department of Pharmacognosy, Medical University of Łódź, Łódź, Poland.
J Sep Sci. 2012 Sep;35(17):2174-83. doi: 10.1002/jssc.201200287. Epub 2012 Jul 18.
An HPLC method of high resolution has been developed and validated for the simultaneous determination of ten prominent flavonoid aglycones in plant materials using a fused-core C18-silica column (Ascentis® Express, 4.6 mm × 150 mm, 2.7 μm). The separation was accomplished with an acetonitrile-tetrahydrofuran gradient elution at a flow rate of 1 mL/min and temperature of 30°C. UV spectrophotometric detection was employed at 370 nm for flavonols (quercetin [QU], myricetin [MY], isorhamnetin [IS], kaempferol [KA], sexangularetin [SX], and limocitrin [LM]) and 340 nm for flavones (apigenin [AP], acacetin [AC], chrysoeriol [CH], and luteolin [LU]). The high resolution of critical pairs QU/LU (10.50), QU/CH (3.40), AP/CH (2.51), SX/LM (2.30), and IS/KA (2.70) was achieved within 30.3 min. The observed column back pressure was less than 4300 psi, thus acceptable for conventional HPLC equipment. The method was sensitive enough having LODs of 0.115-0.525 ng and good linearity (r > 0.9999) over the test range. The precision values, expressed as RSD values, were <7.5%, and the accuracy was in the range of 95.3-100.2% for all analytes except MY (73.8%). The method was successfully employed for the determination of flavonoids in several medicinal plants, such as Ginkgo biloba, Betula pendula, and a variety of Sorbus species.
已经开发并验证了一种高效液相色谱法(HPLC),用于使用熔融核 C18-硅胶柱(Ascentis Express,4.6mm×150mm,2.7μm)同时测定植物材料中的十种主要黄酮苷元。分离在 30°C 下以 1mL/min 的流速用乙腈-四氢呋喃梯度洗脱完成。黄酮醇(槲皮素[QU]、杨梅素[MY]、异鼠李素[IS]、山奈酚[KA]、山柰素[SX]和圣草酚[LM])采用 370nm 的紫外分光光度法检测,黄酮[芹菜素[AP]、乙酰乙酸[AC]、白杨素[CH]和木犀草素[LU]采用 340nm 检测。在 30.3 分钟内实现了 QU/LU(10.50)、QU/CH(3.40)、AP/CH(2.51)、SX/LM(2.30)和 IS/KA(2.70)等关键对的高分辨率。观察到的柱背压小于 4300psi,因此适用于常规 HPLC 设备。该方法足够灵敏,LOD 为 0.115-0.525ng,在测试范围内具有良好的线性(r>0.9999)。除 MY(73.8%)外,所有分析物的精密度值(表示为 RSD 值)均<7.5%,准确度在 95.3-100.2%范围内。该方法成功用于测定几种药用植物中的黄酮类化合物,如银杏、桦木和多种花楸属植物。
