Fast Chromatographic Separation of Plasticizers on Thin Layers of an Inorganic Ion-Exchanger: Quantitative Determination of Di(2-ethylhexyl)phthalate

Fast and selective separation of dimethyl phthalate, diethyl phthalate, dibutyl phthalate, di(2-ethylhexyl)phthalate (DEHP), benzyl butyl phthalate, diisodecyl phthalate, dimethyl adipate, diethyl adipate, di(2-ethylhexyl)adipate, triethyl citrate, tributyl citrate, tributyl acetyl citrate and n-butyl stearate have been developed on thin layers of inorganic ion-exchanger stannic silicate using a mixture of toluene + ethyl acetate (10:1, v/v) as mobile phase. The development distance and time were 12 cm and 25 min, respectively. Quantitative determination of DEHP was made at wavelength 280 nm by Camag TLC Scanner-3. Limit of quantitation for DEHP was 0.50 μg per zone while its limit of detection was 0.05 μg per zone.     

固相微萃取-气相色谱联用技术测定水相中的邻苯二甲酸二(2-乙基)己酯

利用顶空固相微萃取与气相色谱联用技术（HS－SPME－GC）以富勒烯聚二甲基硅氧烷（PSO－C60）固定相处制萃取头分析了塑料浸取液中的邻苯二甲酸二（2－乙基）己酯（DEHP），并对萃取温度、离子强度、吸附时间和热解析时间进行了研究。结果显示，该方法的线性范围在5μg/L－500μg/L，检测出了为2．8μg/L，相对标准偏差为4．8％（n=6).     

Evaporative loss kinetics of di(2-ethylhexyl)phthalate (DEHP) from pristine DEHP and plasticized PVC

The migration of di(2-ethylhexyl)phthalate (DEHP) from poly(vinyl chloride) (PVC) to a surrounding gas phase at temperatures below 120 °C kinetically is controlled by evaporation. The effects on the DEHP loss rate of nitrogen flow rate, relative humidity and degradation of the plasticizer at 100 °C was assessed. The sample mass decreased linearly with time for both pristine DEHP and plasticized PVC at comparable rates, suggesting that a thin film of DEHP was present on the jacketing insulation during desorption. The latter hypothesis was supported by infrared spectroscopy and by the fact that DEHP is an amphiphilic molecule that will tend to aggregate at the surface with the hydrophobic 2-ethylhexyl units at the air interface. The effect on the migration rate of moisture present in the gas phase was negligible. The DEHP loss rate increased in a retarding non-linear fashion with increasing gas flow rate. In one of the experiments, DEHP was accidently degraded as revealed by discoloration, the presence of low molar mass degradation products (liquid chromatography) containing additional carbonyl groups (infrared spectroscopy) and an increase in the evaporation rate at temperatures between 100 and 130 °C.     

Determination of Gemcitabine Triphosphate in Peripheral Blood Mononuclear Cells by Reverse-Phase HPLC

This paper describes a high-performance liquid chromatographic assay coupled with UV detection at 272 nm, to determine the levels of the nucleotide analogue gemcitabine triphosphate, one of the active metabolites of the antitumoral drug gemcitabine, in peripheral blood mononuclear cells. Isocratic ion-pair chromatography on a C₁₈ column was used. Samples were treated with trichloroacetic acid 40%, cleaned and neutralized with freon:trioctylamine (4:1). The method was linear on the concentration range tested, and the evaluated precision was found satisfactory (RSD < 6.8). The detection limit was 31 pmol, and the quantitation limit 102 pmol. The recovery of gemcitabine triphosphate ranged between 95 and 114%. The procedure was used to provide pharmacokinetic data from cancer patients treated with intravenous gemcitabine.     

液相色谱-串联质谱法测定饮料中邻苯二甲酸二(2-乙基)己酯和邻苯二甲酸二异壬酯

建立了饮料中邻苯二甲酸二(2-乙基)己酯(DEHP)和邻苯二甲酸二异壬酯(DINP)残留的液相色谱-串联质谱(LC-MS/MS)检测方法。2.0 g样品经8 mL甲醇振荡提取、定容、离心,取上清液过滤,采用LC-MS/MS电喷雾电离,多反应监测(MRM)模式对样品进行分析。DEHP在浓度范围为2～200μg/L,DINP在10～1000μg/L内线性良好,相关系数均大于0.998。实验表明:样品无明显的基质效应。样品中添加0.01～5 mg/kg的DEHP和DINP,其回收率为86.2%～111.6%;相对标准偏差(n=6)小于11%;DEHP检出限为0.008 mg/kg,定量限为0.01 mg/kg;DINP检出限为0.01 mg/kg,定量限为0.05 mg/kg。本方法提取效果好,具有良好的灵敏度、回收率和重复性,被成功用于实际饮料样品中DEHP和DINP的测定。     

Determination of potential degradation products of piroxicam by HPTLC densiometry and HPLC

Summary HPTLC densitometry and HPLC are considered for the simultaneous determination of the degradation products of piroxicam (2-aminopyridine, DP-I and DP-II). The substances were separated on silica gel with fluorescence indicator in ethylacetate — toluene — diethylamine (10∶10∶5) and toluene — absolute ethanol — glacial acetic acid (8∶1.2∶0.5) systems. The measuring absorbance (detection of reflectance) of the separated substances was carried out “in situ” at 296 nm using 4-level calibration (external standard, nonlinear regresson function) in the concentration range 600–1200 ng 2-aminopyridine/spot and 300–600 ng DP-I and DP-II/spot. The HPLC method was carried out using RP-8 stationary phase and methanol + phosphate-citrate buffer, pH 3 mobile phase with addition of sodium pentanesulfonate (40+60, v/v). 2-aminopyridine wass detected at 300 nm, DP-I at 280 nm and DP-II at 248 nm. The concentration range for 2-aminopyridine is 2–40 μg/ml, for DP-I and DP-II 2–20 μg/ml (for an injection volume of 10 μl). The results were evaluated by linear regression analysis.     

Determination of 2-mercaptobenzothiazole in river water by HPLC

Summary A method is proposed for the determination of 2-mercaptobenzothiazole in river waters using multi-electrode electrochemical detection HPLC. 2-mercaptobenzothiazole determination is unsatisfactory by gas chromatography as it degrades readily on the column. Multielectrode electrochemical detection HPLC combines sensitivity and the ability to screen out other electrochemically active species. The development work leading up to the proposed method is discussed. The method has a limit of detection of 0.798gl^–1 2-mercaptobenzothiazole and a total standard deviation of 2.06gl^–1 2-mercaptobenzothiazole at a concentration of 7.97gl^–1 2-mercaptobenzothiazole in river water.     

超高效合相色谱快速检测塑料制品中的15种邻苯二甲酸酯

建立了使用超高效合相色谱检测塑料中15种邻苯二甲酸酯的方法。样品经正己烷超声萃取,过0.45 μ m有机膜后上机测试。采用ACQUITY UPC² HSS C18 SB色谱柱（150 mm×3 mm, 1.8 μ m）,以超临界CO₂流体为主流动相、乙腈为流动相改性剂进行梯度洗脱,流速为1.5 mL/min。在系统背压为12.41 MPa、色谱柱温度为65 ℃、二极管阵列检测器（PDA）检测波长为220 nm的条件下,15种邻苯二甲酸酯可以在8 min内实现分离检测。实验结果表明：15种邻苯二甲酸酯的线性范围为0.5~10 mg/L,相关系数大于0.9960,检出限（S/N=3）为1.0~2.2 mg/kg,加标回收率为78.1%~122.3%,相对标准偏差为2.95%~8.26%。该方法分析速度快,为邻苯二甲酸酯类物质的检测提供了新的选择。     

气相色谱-串联质谱法测定食用油中两种非邻苯二甲酸酯类增塑剂

建立了气相色谱-串联质谱同时测定食用油中对苯二甲酸二（2-乙基己基）酯和偏苯三甲酸三（2-乙基己基）酯两种非邻苯二甲酸酯类增塑剂的方法。样品采用乙腈提取,于-20℃冷冻除脂净化,用气相色谱-串联质谱选择反应监测模式测定。两种化合物的检出限为0.03 mg/kg,定量限为0.1 mg/kg,线性范围为0.1~10 mg/kg。3个添加水平（0.1、0.3和1.0 mg/kg）下的回收率为81.04%~108.31%,相对标准偏差为0.70%~9.91%。该方法简便、准确,适用于食用油中对苯二甲酸二（2-乙基己基）酯和偏苯三甲酸三（2-乙基己基）酯的检测。     

Separation and Quantitation of Urinary Phthalates by HPLC

Abstract

A method was developed for the separation and quantitation of plasticizers and their metabolites from human urine using HPLC, Urine was diluted with an equal volume of water and extracted at pH 2.0 with diethyl ether, The extract was dried, the solvent vacuum stripped, and the residue dissolved in methanol for injection into the chromatograph. A C₁₈ reverse phase column containing 10 μ particles was used for the analysis. Ionic suppression, 0.5% acetic acid in water, at pH 3.0 was used to resolve the acidic components. A step gradient of acetonitri1e:water (containing acetic acid) was used to elute the polar metabolites as well as the non-polar plasticizers. Mass spectrometry was used t o identify the compounds in the HPLC fractions. From the HPLC fractions of the urine extract collected, phthalic acid, MEHP, DEHP and normal urinary constituents (e.g., hippuric and benzoic acid derivatives) were identified     

Determination of carbofuran in a nutrient solution by GLC/NPD and HPLC

Summary Two analytical methods using GC/NPD and HPLC to analyse carbofuran in a nutrient solution used in hydroponic culture are described. Both methods show a high recovery, (greater than 90%), and their limits of detection are low.     

Novel Extraction for Endocrine Disruptors in Atmospheric Particulate Matter

A rapid and efficient sample preparation method, which is called microwave-assisted microsolid phase extraction, was developed for the determination of endocrine disrupting chemicals in atmospheric particulate matter. The endocrine disrupting chemicals included bisphenol A, diethyl phthalate, dibutyl phthalate, and di(2-ethylhexyl) phthalate. The endocrine disrupting chemicals were isolated by microwave-assisted extraction following adsorption by copper(II) isonicotinate using microsolid phase extraction. The endocrine disrupting chemicals were subsequently determined by high performance liquid chromatography with an ultraviolet detector. The extraction was optimized for temperature, time, desorption time, and desorption solvent. Limits of detection (in the range of 2.0–8.5 nanograms per liter), limits of quantification (in the range of 6.6–28.0 nanograms per liter), and repeatability of the procedure (less than 10 percent) were established. Diethyl phthalate, diethyl phthalate, and di(2-ethylhexyl) phthalate were determined at values from 0.57 to 68.8 nanograms per cubic meter in atmospheric particulate matter collected from an urban area, a business center, and an industrial site in Dongguan, China. The concentration of bisphenol A was below the detection limit in these samples.     

Determination of grepafloxacin in plasma samples by HPLC: Application to clinical pharmacokinetic studies

Summary A sensitive HPLC assay for the determination of grepafloxacin (GRE) in biological samples is described. Sample preparations were carried out by adding phosphate buffer (pH 7.4, 0.1M), followed by extraction with trichloromethane. GRE and the internal standard, enrofloxacin (ENR), were separated on a reversed-phase column using an aqueous phosphate solution-acetonitrile (78∶22) mobile phase. The concentrations of ENR and GRE eluting of the column with retention times of 2.55, and 4.90 min, respectively were monitored by fluorescence atλ _ex 338 andλ _em 425 nm. The method was shown to be linear from 5 to 4000 ng mL⁻¹. The detection and quantitation limits were 5 and 10 ng mL⁻¹, respectively. Mean recovery was determined as 90%. Inter- and intra-assay precisions were 3.0% and 3.5% respectively. The method was applied to the determination of GRE in plasma samples collected during clinical pharmacokinetic studies.     

Simultaneous Determination of Olanzapine and Fluoxetine by HPLC

A rapid, specific reversed phase HPLC method has been developed for simultaneous determination of olanzapine and fluoxetine in their formulations. Chromatographic separation of these two pharmaceuticals was carried out on an Inertsil C₁₈ reversed phase column (150 mm × 4.6 mm, 5 μm) with a 40:30:30 (v/v/v) mixture of 9.5 mM sodium dihydrogen phosphate (pH adjusted to 6.8 ± 0.1 with triethylamine), acetonitrile and methanol as mobile phase. The flow rate 1.2 mL min⁻¹ and the analytes are monitored at 225 nm. Paroxetine was used as internal standard. The assay results were linear from 25 to 75 μg mL⁻¹ for olanzapine (r ² ≥ 0.995) and 100–300 μg mL⁻¹ for fluoxetine (r ² ≥ 0.995), showed intra- and inter-day precision less than 1.0%, and accuracy of 97.7–99.1% and 97.9–99.0%. LOQ was 0.005 and 0.001 μg mL⁻¹ for olanzapine and fluoxetine, respectively. Separation was complete in less than 10 min. Validation of the method showed it to be robust, precise, accurate and linear over the range of analysis.     

Determination of trace amounts of morpholine and its thermal degradation products in boiler water by HPLC

Summary Morpholine and its amine-type thermal degradation products present in boiler feed water and steam condensate were derivatised with N-succinimidyl-p-nitrophenylacetate. These pre-column derivatives were determined by high-performance liquid chromatography with UV detection at 280 nm. The analytical column was Supelco-sil-ODS with an isocratic mobile phase. Morpholine and its breakdown products were monitored in the range 0.01–10 g ml^–1 with a relative standard deviation of 0.4–3.0%. Chromatographic analysis of boiler feed water and steam condensate samples collected from a boiler servicing a petroleum refinery is described.     

Determination of pyromellitic acid in aqueous matrices by HPLC

Summary A rapid method for the HPLC determination of pyromellitic acid in aqueous media used as food simulants has been developed and is described in this paper. The proposed method can determine pyromellitic acid at ppb trace levels and is based on an ionic exchange separation mechanism. The method herein developed has been applied to the determination of pyromellitic acid residues leached from plastic bottles.Research partially supported by National Research Council of Italy, Special Project RAISA, sub-project 4, Paper N.696.     

邻苯二甲酸二(2-乙基)己酯和偏苯三酸三辛酯在临床不同药液中溶出量的比较

聚氯乙烯(PVC)材质的医疗器械产品中需要加入增塑剂以改善柔韧性,目前最常用的增塑剂是邻苯二甲酸二(2-乙基)己酯(DEHP)和偏苯三酸三辛酯(TOTM)。本文考察了PVC一次性使用输液器产品在脂溶性药液(紫杉醇注射液)、肠外营养液(脂肪乳)、酸性药液(左氧氟沙星,pH 3.0~5.0)和碱性药液(呋塞米,pH 8.0~9.0)中的DEHP和TOTM溶出量,并进行对比分析。先建立了一种高效液相色谱-紫外检测(HPLC-UV)方法测定增塑剂的溶出量,并利用该方法对增塑剂的溶出量进行了分析。实验结果表明,增塑剂在不同药液中均有一定的溶出情况,其中紫杉醇注射液对增塑剂的溶出量要高于脂肪乳,并远高于左氧氟沙星和呋塞米注射液。通过对比DEHP和TOTM的溶出量可以看出,在相同的浸提条件下,TOTM的溶出量远低于DEHP的溶出量。利用紫杉醇注射液浸提24 h,PVC输液器产品DEHP的溶出量为21.14 mg,而TOTM的溶出量仅为0.078 mg。DEHP的溶出量为TOTM溶出量的270倍。因此,TOTM具有的较好耐迁移性,是一种潜在的DEHP替代增塑剂。     

Determination of urinary organic acids by HPLC

Summary A high-performance liquid chromatographic method for the simultaneous determination of urinary organic acids and creatinine for following the metabolism of aromatic solvents is reported. After extraction of acidified, filtered urine with diethylether followed by evaporation, the dried residue is dissolved in mobile phase. Hydroxybenzoic acid is used as internal standard. A column of Nucleosil C₁₈ is used with a precolumn of the same material. The mobile phase is acetonitrilephosphate buffer, pH 3.3 (1783). For determination of creatinine the sample is simply diluted 10-fold and the eluate monitored at 215 nm (UV). This technique gives highly reproducible results and is simple, reliable and useful for biological monitoring.     

GC column effluent splitter for problematic solvents introduced in large volumes: Determination of di-(2-ethylhexyl) phthalate in triglyceride matrices as an application

Introduction of solutions of up to several milliliters by on-column injection of large volumes or by coupled HPLC-GC may cause problems with GC detectors (FID, AFID, MS). For instance, dichloromethane forms large amounts of hydrochloric acid and carbon black in FIDs. A column effluent splitter was developed for keeping the major portion of the solvent vapors away from the detector; approximately 99% of the vapor is vented while the remaining 1% of vapor is used for detecting the widths of the solvent peaks. During analysis, the split ratio is reversed by a strong increase of the resistance to the gas flow through the split exit line. The system was used for the determination of di-(2-ethylhexyl)-phthalate (DEHP) in triglyceride matrices of various foods. Direct determination by HPLC is not sufficiently sensitive, whereas direct analysis by GC is hindered by the triglycerides. Solutions of fats or oils were pre-separated on a silica column using dichloro-methanelcyclohexane 1:l with addition of 0.05 % acetonitrile as eluent. The HPLC fraction containing the DEHP was transferred to GC through a loop-type interface using concurrent solvent evaporation. Detection limits were around 0.1 ppm.