HPLC测定大鼠血浆中阿魏酸的浓度及其药动学研究

俞静静; 楼招欢; 陈素红; 颜美秋; 吕圭源<sup>*</sup>

引用本文:	俞静静,楼招欢,陈素红,颜美秋,吕圭源.HPLC测定大鼠血浆中阿魏酸的浓度及其药动学研究[J].中国现代应用药学,2014,31(3):319-323.
	YU Jingjing,LOU Zhaohuan,CHEN Suhong,YAN Meiqiu,LÜ Guiyuan.Determination of Ferulic Acid in Rat Plasma by HPLC and Its Application in Pharmacokinetics Studies[J].Chin J Mod Appl Pharm(中国现代应用药学),2014,31(3):319-323.

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HPLC测定大鼠血浆中阿魏酸的浓度及其药动学研究
俞静静¹, 楼招欢¹, 陈素红², 颜美秋¹, 吕圭源¹
1.浙江中医药大学，杭州 310053;2.温州医科大学，浙江温州 325035

摘要:

目的建立测定大鼠血浆中阿魏酸的反相高效液相色谱法，并测定灌胃给予康脉心口服液(Kangmaixin oral liquid，KMX)后大鼠血浆中阿魏酸的浓度及药动学参数。方法血浆样品经酸化后用乙酸乙酯进行液-液萃取，色谱柱为Diamonsil TM C₁₈(4.6 mm×250 mm，5 μm)，Agilent C₁₈预柱；流动相为乙腈-0.085% H₃PO₄溶液(17∶83)；流速1.0 mL·min^-1；DAD检测波长316 nm；柱温35 ℃。测定KMX灌胃后阿魏酸在大鼠体内的血药浓度，建立阿魏酸药时曲线，并对其进行房室模型的拟合和药动参数的计算。结果阿魏酸在0.137 04~5.710 μg·mL^-1内具有良好的线性关系(r=0.999 8)，最低定量限为6.852 ng；样品溶液在36 h内稳定，精密度良好(RSD<5.0%)；平均回收率为91.8%~100.5%。阿魏酸在大鼠体内过程符合二室模型，T_max=20.10 min，C_max=743.6 ng·mL^-1，T_l/2Ka=6.781 min，T_l/2α=17.82 min，T_1/2β=179.4 min。结论该方法简便、灵敏度高，无杂质干扰，可用于KMX中阿魏酸的药动学研究，其中阿魏酸在大鼠体内吸收分布迅速而消除慢。

关键词: 康脉心阿魏酸药动学血药浓度高效液相色谱法

DOI：

分类号:

基金项目:“重大新药创制”国家科技重大专项(2009ZX09502-016)；浙江省中医药科技计划项目(2012ZA030，2012ZA031)；浙江省重点实验室(2012E10002)；浙江中医药大学校级科技创新团队(2011-3)

Determination of Ferulic Acid in Rat Plasma by HPLC and Its Application in Pharmacokinetics Studies

YU Jingjing¹, LOU Zhaohuan¹, CHEN Suhong², YAN Meiqiu¹, LÜ Guiyuan¹

1.Zhejiang Chinese Medical University, Hangzhou 310053, China;2.Wenzhou Medical University, Wenzhou 325035, China

Abstract:

OBJECTIVE To develop a high-performance liquid chromatography for determination of ferulic acid(FA) in rats plasma which were treated with Kangmaixin oral liquid(KMX) and to study the pharmacokinetics of FA in rats. METHODS Plasma sample were extracted by liquid-liquid extraction with ethylacetate. Diamonsil TM C₁₈(4.6 mm×250 mm, 5 μm) chromatographic column and Agilent C₁₈ pre-column was used with 35 ℃ column temperature. The mobile phase consisted of acetonitrile and 0.085% phosphoric acid (17∶83). The flow rate was 1.0 mL·min^-1. The detection wavelength was set at 316 nm. The plasma concentration of FA in rat plasma after i.g. KMX was determined. The plasma concentration-time curve of FA was plotted, the compartment model was fitted and the pharmacokinetic parameters were calculated. RESULTS The assay showed good linear correlation over the range of 0.137 04-5.710 μg·mL^-1(r=0.999 8). The minimum quantity limit of FA was 6.852 ng. The sample solution was stable within 36 h. The coefficient variation of precision was <5.0%. The average recovery rate of this method was 91.8%-100.5%. FA in rats fit to two-compartment model with T_max=20.10 min, C_max=743.6 ng·mL^-1, T_l/2Ka=6.781 min, T_l/2α=17.82 min, T_1/2β=179.4 min. CONCLUSION The method is simple, sensitive and suitable for pharmacokinetics of FA, and FA can be absorbed and distributed very rapidly while the elimination is very slow after taken KMX.

Key words: Kangmaixin oral liquid ferulic acid pharmacokinetics plasma concentration HPLC