全自动免疫亲和在线净化/高效液相色谱法快速高通量测定饲料中黄曲霉毒素

建立了全自动免疫亲和在线净化/高效液相色谱快速高通量测定饲料中黄曲霉毒素(Aflatoxins,AFT)的分析方法。饲料样品经乙腈-水(80∶20,体积比)提取,3 g/L Triton X-100水溶液10倍稀释后,用自动进样器注入RIDACREST在线固相萃取系统并流经黄曲霉毒素免疫亲和小柱,以甲醇-水(45∶55,体积比)为流动相,流速为1.0 m L/min,C18色谱柱(150 mm×3.5 mm,5μm)分离,光化学衍生,荧光检测器测定。根据3倍信噪比的峰响应值,确定黄曲霉毒素B1,B2,G1,G2的检出限分别为0.08,0.05,0.18,0.08μg/kg,分别在1~100,0.24~24,0.56~56,0.24~24μg/kg范围内呈线性相关,相关系数(r2)分别为0.999 4,0.999 7,0.999 8和0.999 8;AFT在猪饲料、鸡饲料、宠物饲料和饲料原料4类样品中的加标回收率为72.6%~103%,相对标准偏差为2.5%~4.9%。该方法一次装柱可检测60个样品,液相色谱分析一个样品总的运行时间为15 min,所以1 d可检测70~80个样品,满足饲料中黄曲霉毒素快速高通量准确定量检测的需要。     

The Role of Column Switching in Analysing Complex Samplest

Abstract

Our objective in using column switching is primarily to achieve the desired separation in the minimum analysis time. Complimentary to this aim is the need for sample and column cleanup followed by column re-equilibration. Finally, all operations should be capable of automation. Fundamental to column switching methodology is the concept of Zone cutting, where part of the chromatogram is transferred to another column. This forms the basis of sample cleanup and is a very versatile and powerful method. Multiple zone cutting is also possible to further increase the scope of cleanup or to minimise analysis time. Zone cutting is also complimentary to the techniques of trace enrichment and recycling. Examples will be given involving the use of these techniques in the analysis of complex matrices such as urine, plant extracts, wine and serum. The latter will be used to propose a novel approach to the quantitative analysis of anti-convulsants in serum using hexobarbital as internal standard.     

固相萃取/气相色谱-质谱法对土壤中有机氯农药的分析及基质效应研究

建立了一种固相萃取/气相色谱-质谱法同时测定土壤中23种有机氯农药的方法,并研究了不同基质效应补偿方式。土壤样品经正己烷∶丙酮(体积比1∶1)提取,弗罗里土小柱净化,采用气相色谱-质谱仪检测。结果发现7种有机氯存在中/强程度的基质效应;在10 mL二氯甲烷∶正己烷(体积比1∶9)+10 mL丙酮∶正己烷(体积比1∶9)为固相萃取的洗脱剂,且脉冲压力为275.8 kPa条件下,可将23种有机氯的基质效应均控制在20%以内。23种有机氯农药在0.4～10μg·mL~(-1)质量浓度范围内线性良好,相关系数(r~2)均不小于0.999 2,检出限为1.0～8.6μg·kg~(-1),定量下限为4.0～34.4μg·kg~(-1);在20、60、100μg·kg~(-1)3个加标水平下空白土壤中的平均回收率为46.3%～127%,相对标准偏差(n=6)为0.68%～15%。采用该方法在某土壤样品中检出α-六六六、γ-六六六、p,p′-DDE、异狄氏剂醛、p,p′-DDT 5种有机氯农药。     

双重净化-气相色谱法测定植物油中指示性多氯联苯

为了考察食用油中7种指示性多氯联苯(PCBs)的残留情况,建立了食用油中痕量多氯联苯测定的双重净化-气相色谱法。以乙腈提取样品,提取液浓缩至干后用正己烷溶解,经浓硫酸、硅胶分散固相萃取双重净化后进行气相色谱分析,外标法定量。优化的色谱条件为:HP-5石英毛细管柱(30 m×0.32 mm×0.25μm)程序升温分离,流速0.8 mL/min,进样量1.00μL,电子捕获检测器检测。结果表明:在优化的条件下,7种多氯联苯在10~500μg/L范围内线性良好,相关系数大于0.999,不同基质中的检出限(S/N=3)范围为1.8~8.9μg/kg,定量限(S/N=10)范围为5.9~29.8μg/kg。在橄榄油、花生油和棕榈油空白样品中添加10、20、100μg/kg 3个水平的7种多氯联苯,其加标回收率范围为71.0%~105.5%,相对标准偏差(RSD)范围为4.0%~11.3%。该方法具有操作简便、快速、准确的特点,可用于植物油中指示性多氯联苯残留量的日常检测。     

Evaluation of sample treatment procedures for the routine identification and determination at nanogram level of O6-monoacetylmorphine in urine by capillary GC and dual NPD-FID

Three methods were evaluated for the determination of O⁶-monoacetylmorphine (6-MAM), the specific metabolite of heroin in human urine, by GC-NPD-FID. The procedure devised for a hydrophobic cation exchange column showed superior performances over the liquid-liquid extraction technique and solid phase extraction with C₁₈. 6-MAM can be analyzed in random urines at the 2 ng/mL concentration with classical equipment for the differentiation between heroin intake and opiates from various origins. The procedure was also applied to enzymatic and acid hydrolyzates of urines. The simultaneous presence of morphine and codeine are useful in the interpretation of results.     

Multi-method for the determination of antibiotics of different substance groups in milk and validation in accordance with Commission Decision 2002/657/EC

The presented method is able to analyse 47 substances of the antibiotic groups tetracyclines, quinolones, macrolides, sulfonamides, diamino-pyrimidine derivatives and lincosamides simultaneously in a single analytical run. Applying an in-house validation concept, the validation of the multi-method was successfully accomplished with a low number of experiments. Each substance was validated at least at the concentrations 0.5, 1.0 and 1.5 MRL (maximum residue limit), or respectively, at concentrations as low as possible for substances without MRL. The calculated relevant validation parameters, e.g. the decision limit CCα, the detection capability CCβ, the repeatability, the within-laboratory reproducibility and the recovery, are in an acceptable range and in compliance with the requirements of Commission Decision 2002/657/EC. A proficiency test and the implementation of the method by other laboratories were performed successfully.     

Clean-up of some organochlorine and pyrethroid insecticides by automated solid-phase extraction cartridges coupled to capillary GC-ECD

The ASPEC (Automatic Sample Preparation with Extraction Columns) system has been coupled on-line to capillary GC-ECD by means of a loop-type interface equipped with a solvent vapour exit. Both ASPEC and GC conditions have been optimized leading to an effective clean-up of the extracts analyzed. By means of solid-phase extraction cartridges filled with silica, it has been possible to analyze concentrated surface water extracts for a group of 18 electron-capturing compounds present in the water at ppt levels. ASPEC-GC has also been applied to the determination of synthetic pyrethroids at ppt levels in surface water. The complete analytical procedure is greatly facilitated by automation and miniaturization. Miniaturization results in a considerable decrease in the sample volume required. The potential of the method for the analysis of other pesticides is estimated.     

Direct injection of biological fluids: Application of HPLC-analysis with precolumn enrichment to the pharmacokinetic studies of lonazolac

Summary Lonazolac and its p-hydroxylated metabolite M1 are determined in serum by high performance liquid chromatography using direct injection of comparatively large volumes with precolumn enrichment. No sample workup is required prior to analysis. Reproducibility, calibration plots, recoveries and detection limits are presented, together with various applications of the method. Data from direct injection of serum are also compared to results from a conventional extraction work-up.Presented at the 14th International Symposium on Chromagraphy London, September, 1982     

Simplified sample preparation for GC speciation analysis of organotin in marine biomaterials

Two simple sample preparation methods for the speciation analysis of triphenyltin and butyltin compounds in marine biotissues, using tetramethylammonium hydroxide (TMAH) solubilization and enzymic hydrolysis, have been developed and compared with conventional acid digestion. Derivatization was carried out in situ using sodium tetraethylborate (NaBEt₄) without prior separation of the analytes from the tissue matrix. Separation and detection was performed using capillary gas chromatography (GC) coupled to microwave-induced plasma atomic emission spectrometry (MIP AE) allowing detection limits of 2 ng g^?1 (as tin) to be reached. The accuracy of the presented methods was demonstrated by the analysis of a fish reference material (NIES No. 11). the necessity for sample clean-up is discussed and examples of the analysis of mussel tissue are shown.     

An improved method for the determination of S-Carboxymethyl-L-cysteine in biological fluids with precolumn derivatization and on-line clean-up

Summary In order to follow levels of S-Carboxymethyl-L-cysteine in biological fluids for a period as long as three half-lives after drug administration during pharmacokinetic studies, an improved method for its determination had to be developed. Like the previous one, this method uses a protein precipitation step followed by an O-Phthalaldehyde derivatization step and then an HPLC on-line clean-up. This latter was obtained by means of a switching valve system, including a Nucleosil CN 5 m (3 cm × 4.6 mm i.d.) precolumn and a Spherisorb ODS 5 m (15 cm×4.6 mm i.d.) analytical column. The sensitivity limit was improved to 0.1 g/ml in plasma samples and 0.2 g/ml in urine samples.This method was applied in studies comparing single (0.75 g) and repeated (0.75 g tid) oral administration of the drug to 30 elderly patients and 20 healthy volunteers. Results showed that the half-life was 40% longer in elderly patients than in healthy volunteers, and that area under the plasma concentration versus time curve (AUC) values in elderly patients were twice those obtained with young subjects.