高效液相色谱-串联质谱法测定化妆品中的欧前胡素和异欧前胡素

建立了化妆品中欧前胡素和异欧前胡素的高效液相色谱-串联质谱(HPLC-MS/MS)测定与确证方法。样品经甲醇提取,以C18柱为分离柱,10 mmol/L乙酸铵/甲醇溶液-5 mmol/L乙酸铵水溶液(80:20, v/v)为流动相分离,采用电喷雾串联四极杆质谱进行检测。欧前胡素和异欧前胡素在0.25～20 μg/L内线性良好(相关系数大于0.999);方法定量限(LOQ)为0.50 mg/kg。在0.50～10.0 mg/kg内,欧前胡素和异欧前胡素的回收率范围分别为82.2%～105%和80.0%～103%,相对标准偏差分别为2.7%～4.9%和1.8%～4.6%。该方法能够满足化妆品中欧前胡素和异欧前胡素检测的需要。     

液相色谱-串联质谱法测定白芷中3种香豆素

建立了白芷中欧前胡素,异欧前胡素和氧化前胡素的液相色谱-串联质谱分析法。白芷提取液经Waters XTerra-C18(150mm×3.9 mm,5μm)色谱柱分离,以1mmol/L乙酸铵溶液和乙腈为流动相进行洗脱,以电喷雾正离子(ESI+)模式电离,多反应监测(MRM)模式检测,外标法定量。欧前胡素,异欧前胡素和氧化前胡素分别在0.05～10μg/mL,0.05～13μg/mL和0.1～120μg/mL范围内呈线性相关,相关系数(r)分别为0.9993,0.9991和0.9994,检出限分别为30,30和50 ng/mL,平均加标回收率为100.1%,99.4%和98.4%,相对标准偏差分别为2.2%,2.6%和2.8%(ρ=0.5μg/mL,n=6),该法可以满足同时检测白芷中欧前胡素,异欧前胡素和氧化前胡素的需求。     

高效液相色谱法测定白芷中9种香豆素类化学成分的含量及其多元统计分析北大核心CSCD

采用高效液相色谱法(HPLC)同时测定了30批白芷中欧前胡素、异欧前胡素、补骨脂素、水合氧化前胡素、佛手苷内酯、白当归脑、花椒毒酚、氧化前胡素、白当归素等9种香豆素类化学成分的含量,运用聚类分析(CA)、主成分分析(PCA)、正交偏最小二乘法-判别分析(OPLS-DA),筛选出白芷的指标性成分.结果表明,9种香豆素类化学成分的质量浓度在一定范围内与对应的峰面积呈线性关系,检出限(3S/N)为0.1~0.7 mg·L^(-1).按标准加入法进行回收试验,回收率为99.1%~106%,测定值的相对标准偏差(n=6)均小于3.0%.所测9种香豆素类化学成分的含量经统计分析可知,不同产地的白芷存在质量差异,且硫磺熏蒸对样品质量有较大影响;CA、PCA、OPLS-DA所得结果一致,将样品均分为3类,并且筛选出了差异贡献较大的指标性成分氧化前胡素和欧前胡素.     

凝固-漂浮分散液液微萃取-高效液相色谱法测定水样中氯酚

采用凝固-漂浮分散液液微萃取(SFO-DLLME)-高效液相色谱法测定水样中3种氯酚.以密度小于水,且凝固点为24 ℃的1-十二醇为萃取剂,甲醇为分散剂,对水样进行分散液液微萃取.将混合液离心,再通过冷冻凝固操作使漂浮的萃取剂和水相分离,萃取剂复溶后进样测定.本实验确定的最佳实验条件为:萃取剂200 μL、分散剂300 μL、1.2 g NaCl、1 mol/L H3PO4 200 μL、样品体积8.0 mL、萃取时间3 min.3种氯酚测定的线性范围为0.05～6.0 mg/L;检出限为20～38 μg/L.应用本方法分析实际水样,加标回收率在90.11%～107.7%之间;日间相对标准偏差在3.5%～4.6%之间.本方法扩展了分散液液微萃取萃取剂的选择范围,具有简便、快速、准确、环境友好等特点.     

分散液液微萃取-柱前衍生-高效液相色谱法测定水样中双酚A

建立了分散液液微萃取-柱前衍生-高效液相色谱法测定水样中双酚A的分析方法.通过交互正交试验和混合型优化实验设计对影响因素(萃取剂体积、分散剂类型及其体积、水样体积、pH值及离子强度)进行了优化.优化后的分散液液微萃取条件为:60 μL萃取剂,0.4 mL分散剂(甲醇),pH 4.0;优化后的柱前衍生化条件:0.1 mL 2.0 g/L衍生剂(对硝基苯甲酰氯)、衍生化时间30 min;方法的线性范围:0.002～0.2 mg/L(r=0.9997),检出限0.007 μg/L(S/N=3);不同浓度双酚A的萃取率为59.0%～63.0%,相对标准偏差(RSD)2.5%～9.2%(n=5);水样中双酚A的加标率为86.5%～107.1%,RSD为4.0%～11.9%(n=5),其它雌激素(雌酮、雌二醇、雌三醇和17α-乙炔基雌二醇)对双酚A的测定无干扰.本方法可以对水环境中的痕量BPA进行检测,具有操作简便、快速等优点.     

离子液体和氯代溶剂分散液-液微萃取/高效液相色谱法联用富集和分析环境水样中酞酸酯类污染物的对比研究

以4种室温离子液体和4种氯代溶剂为萃取剂,与高效液相色谱(HPLC)联用,对比研究了分散液-液微萃取(DLLME)对5种痕量酞酸酯类化合物(PAEs)的富集分离性能。以1-辛基-3-甲基咪唑六氟磷酸盐([OMim][PF6])和建议研究四氯化碳替代品为典型萃取溶剂优化了萃取条件。结果表明,在1.00～100μg/L范围内色谱峰面积与PAEs浓度成良好的线性关系(相关系数>0.995);对于10.0μg/L加标混合样品,平均加标回收率88.2%～103.3%,RSD在2.1%～6.8%之间(n=5),LOD在0.01～0.08μg/L范围内(S/N=3)。与四氯化碳相比,[OMim][PF6]作为DLLME的萃取溶剂对PAEs的富集倍数较高,水相盐效应影响较小。超声波辅助微萃取(USA)可在2 min达到平衡,建立的USA-DLLME-HPLC方法可用于黄河水样和城生活区污水样品中痕量PAEs的富集分离和测定。     

固相萃取-分散液液微萃取-柱前衍生法测定水样中痕量雌激素

建立了碳纳米管的固相萃取-分散液液微萃取-柱前荧光衍生化(SPE-DLLME-PFD)测定水体中痕量雌三醇(E3)、双酚A(BPA)、17α-乙炔基雌二醇(EE2)及17β-雌二醇(E2)的高效液相色谱方法.采用中心复合设计和响应曲面法分析并优化SPE、DLLME及PLD条件,最佳条件为210 mL水样以2.0 mL/min的流速过固相萃取柱(碳纳米管量30 mg),甲醇洗脱,氮气浓缩并定容至0.6 mL(分散剂),将100 μL C6MIM[PF6]与分散剂的混合液注入到NaCl含量为25％的2.0 mL去离子水中,离心,移取20 μL下层有机相于样品瓶中,与4.0 mg衍生剂混合,在40℃水浴中衍生25 min;用0.1mL甲醇溶解过量的衍生剂颗粒,取20 μL进样分析.在优化条件下.4种雌激素的线性范围为0.05～5.00 μg/L,相关系数R2=0.9966～0.9999;,检出限介于0.13～6.33 ng/L(S/N=3)之间.不同加标浓度条件下,雌激素的加标回收率在83.1％～122.4％范围内(RSD=1.7％～9.6％).在实际水样中E3和BPA检出率较高.与其它方法相比,本方法虽然萃取时间长、水样量大、步骤多,但具有检出限低、操作简便、环境友好等优点.     

离子液体顶空单滴微萃取分析中药中的高沸点挥发性成分

建立了分析中药中高沸点挥发性成分的离子液体顶空单滴微萃取-液相色谱法,并用于复方鲜竹沥液中愈创木酚的含量的测定.采用改进的悬滴装置,增大了液滴与微量进样器针尖处塑料套管的接触面积,使离子液体的液滴达12 μL,提高了液滴的稳定性及方法的灵敏度.考察并优化了影响萃取的因素,确定了萃取条件:以12 μL 1-丁基-3-甲基咪唑基六氟磷酸盐([PF6])为悬滴,在5 mL含36%(w/V)NaCl的样品溶液中,萃取温度80 ℃、搅拌速度1000 r/min的条件下,顶空萃取30 min,萃取后直接将液滴吸回微量进样器,进行HPLC检测.愈创木酚在0.05～1.6 mg/L范围内线性关系良好(r=0.9997); 检出限为0.39 μg/L,愈创木酚的加样回收率为97.6%,RSD为2.5%.本方法操作简单、定量准确,样品前处理简单,成本低,无污染.     

分散液液微萃取-气相色谱法测定水样中甲基环硅氧烷

将分散液液微萃取与气相色谱法技术相结合,建立了测定水样中3种甲基环硅氧烷残留的方法.重点探讨了萃取剂的种类和用量、分散剂的种类和用量、萃取时间及盐浓度等对样品萃取效率的影响.结果表明在优化条件下,待测物在5～100μg/L范围内线性良好(r＞0.99),检出限在2～4μg/L之间,富集倍数可达165～170倍,相对标准...     

分散固相萃取-超声辅助分散液液微萃取/高效液相色谱法测定土壤中溴氰菊酯残留

建立了以分散固相萃取-超声辅助分散液液微萃取为样品前处理技术,结合高效液相色谱法(HPLC)测定土壤中溴氰菊酯。样品用甲醇∶水(1∶4,V/V)提取,经布氏漏斗减压抽滤,滤液经N-丙基乙二胺(PSA)、C18、石墨炭黑粉(GCB)净化后,用氯仿萃取,超声,离心后沉积相进行HPLC测定。对分散固相萃取吸附剂的选择及影响分散液液微萃取的因素进行了优化,在最优条件下,溴氰菊酯的富集倍数达到565倍,线性范围为0.005~2.5mg/kg,线性相关系数为0.9998,检出限为0.001mg/kg,平均加标回收率为70.3%~94.5%,相对标准偏差为2.5%~4.7%。该方法具有简便快速、准确灵敏、萃取效率高等特点,可用于土壤中溴氰菊酯残留检测。     

Rapid and Simultaneous Study on Drug–Protein Binding of Four Furocoumarins by Hollow Fiber Liquid Phase Microextraction

Hollow fiber liquid–liquid phase microextraction followed by high-performance liquid chromatography was employed to research the binding of four furocoumarin compounds (psoralen, oxypeucedanin, imperatorin and isoimperatorin) to bovine serum albumin. The results reveal that the percent of drug–protein binding did not rely on the furocoumarins and protein concentrations, and four furocoumarins scarcely competed for protein binding sites. The protein-binding percents of psoralen, oxypeucedanin, imperatorin and isoimperatorin were 55.1 ± 4.5, 14.4 ± 2.4, 44.1 ± 6.7, and 41.3 ± 3.8%, respectively, the numbers of binding sites were 1.2, 1.6, 0.6 and 0.3, and the binding constants were 1,801, 212, 937 and 4,025 L mol^?1, respectively. The proposed new approach is simple, rapid, and effective for the study of the interaction between protein and furocoumarin compounds which is either individual or coexistent with the similar ones.     

Preparative Isolation of Imperatorin, Oxypeucedanin and Isoimperatorin from a Traditional Chinese Herb Using a HSCCC Strategy Based on Optimization of Rapid Flow Rate

Preparative high-speed counter-current chromatography has been used successfully for the isolation and purification of imperatorin, oxypeucedanin and isoimperatorin from traditional Chinese herb “bai zhi”—Angelica dahurica (Fisch. ex Hoffm) Benth. et Hook using high-speed counter-current chromatography (HSCCC). This was achieved in two stages. The first stage used a high flow HSCCC protocol with a two-phase solvent system composed of n-hexane–ethyl acetate–methanol–water (HEMW) with volume ratios of 5:5:5:5, v/v which isolated isoimperatorin but co-eluted imperatorin and oxypeucedanin. The second stage used HEMW 5:5:4:6, v/v at low flow rate to resolve the co-eluted components from the first stage. The flow rate was optimized by preparative HSCCC. 300 mg of the crude extract was separated, yielding 18.5 mg of imperatorin, 8.3 mg of oxypeucedanin and 9.8 mg of isoimperatorin all at a high purity of over 98%.     

Dispersive Liquid–Liquid Microextraction Coupled with High-Performance Liquid Chromatography for Determination of Coumarin Compounds in Radix Angelicae Dahuricae

In this paper, two methods, organic solvent dispersive liquid–liquid microextraction (OS-DLLME) and ionic liquid dispersive liquid–liquid microextraction (IL-DLLME), coupled with high-performance liquid chromatography have been critically compared and introduced for the analysis of the eight coumarin compounds (psoralen, isopsoralen, bergapten, isobergapten, oxypeucedanin, imperatorin, osthole, and isoimperatorin) in Radix Angelicae Dahuricae samples. Experimental conditions have been investigated for both OS-DLLME and IL-DLLME. Under optimal conditions, the detection limits of the eight coumarin compounds obtained by OS-DLLME and IL-DLLME ranged between 0.002–0.026 ng mL⁻¹ and 0.013–0.66 ng mL⁻¹, respectively. The relative standard deviations (RSDs, n = 9) were lower than 8.7 and 8.4% with enrichment factors in the range of 145–380 and 130–230 folds for OS-DLLME and IL-DLLME, respectively. The results showed that there were no significant deviations between the two DLLME methods for the determination of the eight coumarin compounds. Both methods were simple, fast, efficient, and inexpensive. However, compared with IL-DLLME, the OS-DLLME technique exhibited a higher extraction capacity for the eight target analytes.

     

Separation and simultaneous quantification of nine furanocoumarins from Radix Angelicae dahuricae using liquid chromatography with tandem mass spectrometry for bioavailability determination in rats

Radix Angelicae dahuricae is a well‐known medicinal herb in a number of herb preparations for medical uses. In this study, a rapid and selective method using liquid chromatography with tandem mass spectrometry was developed for the separation and simultaneous quantitation of nine furanocoumarins from Radix A. dahuricae, namely imperatorin, isoimperatorin, oxypeucedanin hydrate, bergapten, oxypeucedanin, xanthotoxol, xanthotoxin, isopimpinellin, and psoralen. Chromatographic separation was achieved on a CAPCELL PAK MG II C18 analytical column. Detection was performed using positive electrospray ion source in the multiple reaction monitoring mode. The method was fully validated for analyzing these principles in rat plasma with a lower limit of quantification from 0.5 to 5 ng/mL. The intra‐ and interbatch precisions were less than 10%, and the accuracies ranged from –7.5 to 8.0%. The extraction recovery of the analytes was above 70% without a significant matrix effect. The method was used to determine the oral and intravenous pharmacokinetic profiles of these furanocoumarins after dosing with Radix A. dahurica extract. The bioavailability of these furanocoumarins ranged from 10.1 to 82.8%. These data provide critical information for a better understanding of the pharmacological mechanisms and herb–drug interaction potential of Radix A. dahurica.     

Sensitive determination of amide herbicides in environmental water samples by a combination of solid‐phase extraction and dispersive liquid–liquid microextraction prior to GC–MS

In this paper, solid‐phase extraction (SPE) in combination with dispersive liquid–liquid microextraction (DLLME) has been developed as a sample pretreatment method with high enrichment factors for the sensitive determination of amide herbicides in water samples. In SPE–DLLME, amide herbicides were adsorbed quantitatively from a large volume of aqueous samples (100 mL) onto a multiwalled carbon nanotube adsorbent (100 mg). After elution of the target compounds from the adsorbent with acetone, the DLLME technique was performed on the resulting solution. Finally, the analytes in the extraction solvent were determined by gas chromatography–mass spectrometry. Some important extraction parameters, such as flow rate of sample, breakthrough volume, sample pH, type and volume of the elution solvent, as well as salt addition, were studied and optimized in detail. Under optimum conditions, high enrichment factors ranging from 6593 to 7873 were achieved in less than 10 min. There was linearity over the range of 0.01–10 μg/L with relative standard deviations of 2.6–8.7%. The limits of detection ranged from 0.002 to 0.006 μg/L. The proposed method was used for the analysis of water samples, and satisfactory results were achieved.     

Hollow fibre cell fishing and hollow fibre liquid phase microextraction research on the anticancer coumarins of Radix Angelicae dahuricae in vitro and in vivo

Hollow fiber cell fishing (HFCF) and hollow fiber liquid phase microextraction (HF-LPME) with high performance liquid chromatography were utilized to research the anti-hepatoma HepG-2 or anti-renal tubular ACHN cells coumarins from Radix Angelicae dahuricae (RAD) in vitro and vivo. Before application, the coumarins of psoralen, bergapten, oxypeucedanin, imperatorin and isoimperatorin were selected as model compounds, the experiment conditions and methodology parameters of both HFCF and HF-LPME were investigated. Under the optimized conditions, cell growth state and survival rate, cell specific binding, repeatability for HFCF, and linear ranges, limits of quantification (1.3–21.0?ng/mL), precisions (<15.2%), recoveries (80.4%–109.3%) and stability for HF-LPME were achieved. Results showed that the five model compounds and xanthotoxol, xanthotoxin were screened in RAD extraction; xanthotoxin and xanthotoxol were fished by HepG-2 cell from both plasma and liver, xanthotoxol, xanthotoxin, bergapten and imperatorin were fished by ACHN cell from plasma and kidney; and these coumarins maintained a certain concentration in vivo. The study results provide experimental basis for researching the active anticancer components and expound the medicinal material base in RAD. The combination of HFCF and HF-LPME is simple and effective in studying bioactive anticancer compounds in traditional Chinese medicine in vitro and in vivo.     

超高效液相色谱法测定烟用香精中的欧前胡素

建立了测定烟用香精中欧前胡素的超高效液相色谱方法.以体积比为1∶1的乙腈-水溶液为萃取剂,采用ACQUITY UPLC(R)BEH C18(50 mm×2.1mm,1.7 μm)色谱柱,柱温为30℃,流动相为乙腈-水,进行梯度洗脱,流速为0.2 mL/min,检测波长为248 nm,对20种烟用香精样品进行测定.欧前胡...     

化妆品中8种呋喃香豆素的高效液相色谱法检测及质谱确证

建立了同时测定化妆品中8种呋喃香豆素类化合物(8-羟基补骨脂素、补骨脂素、异补骨脂素、8-甲氧基补骨脂素、5-甲氧基补骨脂素、三甲沙林、欧前胡素和异欧前胡素)的高效液相色谱分析方法及液相色谱-串联质谱确证方法。膏霜类、水剂类、香波类、散粉类、唇膏类等不同类型的化妆品样品分别经适宜的提取溶液进行超声提取,提取液以离心处理后,取上清液经微孔滤膜过滤后测定。采用Agilent Zorbax SB-Phenyl色谱柱(250 mm×4.6 mm, 5 μm)分离,以甲醇-乙腈-水三元流动相梯度洗脱,流速1.0 mL/min,柱温30 ℃,检测波长250 nm。8-羟基补骨脂素的定量限为0.25 mg/kg,补骨脂素、异补骨脂素、8-甲氧基补骨脂素、5-甲氧基补骨脂素、三甲沙林、欧前胡素、异欧前胡素的定量限为0.5 mg/kg。在低、中、高3种加标水平下,8种待测组分的平均回收率为85.0%～105.8%,相对标准偏差为0.41%～7.90%。采用本方法在一日内不同时间点(6个时间点,每隔1 h测定一次)和不同日期(6 d内)测定混合标准溶液,得到8个目标物峰面积的日内精密度均小于1%,日间精密度均小于2%。该方法准确、简便、快速,适用于不同类型化妆品中8种呋喃香豆素类化合物的测定。