MS method

HP-jS-CD sample is permethylated, hydrolyzed and acetylated. The obtained acetylated D-glucitolethers can be analyzed by GC-MS. GC-MS were performed on a Finnigan Trace MS system with helium as the carrier gas [31,32]. 

The steps of methylation are as follows. 10 mg of HP- -CD is taken into a test tube with stopper, add 3 mL dimethylsulfoxide and mix the solution. Add 50 mg sodium hydroxide dry powder and 0.5 mL iodomethane, and then fill with nitrogen. Treat with ultrasonic at room temperature for 60 min. Add 5 mL water to suspend the reaction. Extract by 3 mL chloroform. Wash the organic phase twice with 5 mL water, then distill imder reduced pressure to get faint yellow methylated product. Hydrolyze the product in 2 mol/L trifluoroacetic acid at 120 C for 1 h. 

GC-MS conditions include OV1701 capillary column (30 mxO.25 mm) with temperature programming. The experiment is initiated at 160°C and gradually the temperature is increased at the rate if 3°C/min until the temperature reaches 250° C. It is then allowed to stand for 5 min. The electron ionization (IE) is maintained at 70 eV. 

Pieces a and b could determine the existing substituent and the place at C-2 or C-3/C-6. Piece c is weak, but there is an adjoint strong (c-60) peak, commonly used to judge the substitution site at C-3 or C-6. Piece d is very weak unless n6 = 0, and existing interference has little value. In addition, peaks that charge to mass ratio were 59 and 73 and very strong when hydroxypropyl existed (Fig. 5.8-3). There 

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Yang, M. J. Orton, M. L. Pawliszyn, J. Quantitative Determination of Caffeine in Beverages Using a Combined SPME-GC/MS Method, /. Chem. Educ. 1997, 74,... 

For mixture.s the picture is different. Unless the mixture is to be examined by MS/MS methods, usually it will be necessary to separate it into its individual components. This separation is most often done by gas or liquid chromatography. In the latter, small quantities of emerging mixture components dissolved in elution solvent would be laborious to deal with if each component had to be first isolated by evaporation of solvent before its introduction into the mass spectrometer. In such circumstances, the direct introduction, removal of solvent, and ionization provided by electrospray is a boon and puts LC/MS on a level with GC/MS for mixture analysis. Further, GC is normally concerned with volatile, relatively low-molecular-weight compounds and is of little or no use for the many polar, water soluble, high-molecular-mass substances such as the peptides, proteins, carbohydrates, nucleotides, and similar substances found in biological systems. LC/MS with an electrospray interface is frequently used in biochemical research and medical analysis. 

This is entirely analogous to the problem with simple chemical ionization, and the solution to it is similar. To give the quasi-molecular ions the extra energy needed for them to fragment, they can be passed through a collision gas and the resulting spectra analyzed for metastable ions or by MS/MS methods (see Chapters 20 through 23). 

Although simple solutions can be examined by these techniques, for a single substance dissolved in a solvent, straightforward evaporation of the solvent outside the mass spectrometer with separate insertion of the sample is usually sufficient. For mixtures, the picture is quite different. Unless the mixture is to be examined by MS/MS methods, it will be necessary to separate it into its individual components. This separation is most often done by gas or liquid chromatography (GC or LC). 

Samples to be examined by inductively coupled plasma and mass spectrometry (ICP/MS) are commonly in the form of a solution that is transported into the plasma flame. The thermal mass of the flame is small, and ingress of excessive quantities of extraneous matter, such as solvent, would cool the flame and might even extinguish it. Even cooling the flame reduces its ionization efficiency, with concomitant effects on the accuracy and detection limits of the ICP/MS method. Consequently, it is necessary to remove as much solvent as possible which can be done by evaporation off-line or done on-line by spraying the solution as an aerosol into the plasma flame. 

The development of methods of analysis of tria2ines and thek hydroxy metabohtes in humic soil samples with combined chromatographic and ms techniques has been described (78). A two-way approach was used for separating interfering humic substances and for performing stmctural elucidation of the herbicide traces. Humic samples were extracted by supercritical fluid extraction and analy2ed by both hplc/particle beam ms and a new ms/ms method. The new ms /ms unit was of the tandem sector field-time-of-flight/ms type. 

Various methods for the glc monitoring of EPA Consent Decree Priority PoUutants in water have been described (36) (see Regulatory agencies). The deterrnination of organic poUutants in water by glc and ms methods has also been detailed (37,38). Nonvolatile organic compounds in drinking water have been determined by hplc (39) (see Water, pollution). 

This paper deseribes a rapid and versatile on-line-SPE LC-MS/MS method developed for the determination of various pestieides and tlieir metabolites in water. 28 pestieides, ineluding various triazines, phenylureas, organophosphorous eompounds and other speeies, were seleeted for systematie investigations. 

The specialities of chromatographic behaviour of cypermethrin, permethrin, X-cyhalothrin, deltamethrin and fenvalerate were investigated in this work. Gas chromatographic determination was cai ry out with use of packed column with stationai y phase of different polarity (OV-101, OV-210 OV-17) and capillary and polycapillary columns with non-polai ic stationary phase. Chromatographic peak identification was realized with attraction GC-MS method. 

Nepeta (Lamiaceae) is a genus of perennial or annual herbs found in Asia, Europe and North Africa. About 250 species of Nepeta are reported of which, 67 species are present in Iran. Some species of this genus are important medicinal plants and their extracts have been used for medicinal purposes. Aerial parts of Nepeta sintenisii Bornm. was subjected to hydrodistillation and the chemical composition of isolated essential oil has been analyzed by GC/MS method for first time. Identification of components of the volatile oil was based on retention indices relative to n-alkanes and computer matching with the Wiley275.L library, as well as by comparison of the fragmentation patterns of the mass spectra with those reported in the literature. 

USING CHROMATOGRAPHY-MASS SPECTROMETRY (LC-MS) METHODS FOR THE DECISION OF MEDICAL PROBLEMS... 

A liquid chromatography-mass spectrometry (LC-MS) method that can quantitatively analyze urinar y normal and modified nucleosides in less than 30 min with a good resolution and sufficient sensitivity has been developed. Nineteen kinds of normal and modified nucleosides were determined in urine samples from 10 healthy persons and 18 breast cancer patients. Compounds were separ ated on a reverse phase Kromasil C18 column (2.1 mm I.D.) by isocratic elution mode using 20 mg/1 ammonium acetate - acetonitrile (97 3 % v/v) at 200 p.l/min. A higher sensitivity was obtained in positive atmospheric pressure chemical ionization mode APCI(-i-). 

The relative stereochemistry of hyperaspine (1) was determined by 2D NMR and MS methods. It has a m-fused bicyclic conformation 82 (01TL4621). The tram-fused one is disfavored by an axial pentyl group at C(8) and by a destabilising dipole-dipole interaction between the N and O atoms, which does not exist in the alternative cis conformation. 

An on-line chromatography/atmospheric pressure chemical ionization tandem mass spectrometry (LC-APCI/MS/MS) methods was developed for rapid screen of pharmacokinetics of different drugs, including 5 (98RCM1216). The electron impact mass spectrum of 5 and ethyl 9,10-difluoro-3-methyl-7-oxo-2,3-dihydro-7Ff-pyrido[l,2,3- fe]-l,4-benzoxazine-6-carboxylate was reported (97MI28). Electron impact/Fourier transform... 

What is common to all of these areas is that the relevant number of published GC-GC papers is very small when compared to those concerning single-column and GC-MS methods. While approximately 1000 papers per year are currently published on single-column GC methods and, in recent years, nearly 750 per year on GC-MS techniques, only around 50 per annum have been produced on two-dimensional GC. Of course, this may not be a true reflection of the extent to which two-dimensional GC is utilized, but it is certainly the case that research interest in its application is very much secondary to that of mass spectrometric couplings. A number of the subject areas where two-dimensional methods have been applied do highlight the limitations that exist in single-column and MS-separation analysis. 

A method for the development of a generic LC-electrospray-MS method for the analysis of acidic compounds using experimental design has been reported [5], From an HPLC perspective, this type of analysis often requires the use of an ion-pairing reagent to obtain separation however, many of these, such as tetraalkylammonium ions, are involatile and have undesirable effects on the performance of the mass spectrometer and more volatile alternatives have to be found - in this case, triethylamine was used. 

The issue of flow rate is of particular importance when a method is being developed to determine more than one analyte since the dependency of signal intensity on flow rate is likely to be different for each. This is demonstrated in the development of an LC-MS method for the analysis of a number of pesticides [3], the structures of which are shown in Figure 5.1. Initial experiments to determine the MS-MS transitions to monitor, shown in Table 5.2, and the optimum collision cell conditions were carried out by using flow-injection analysis. 

To allow all culture productiou to be coutrolled, a method for rapid analysis is required. Prior to development of an LC-MS method, the analysis was both complex and time-consuming, involving the purification of a relatively large amount of the antibody using affinity chromatography, enzymatic release, and subsequent derivatizafion of the oligosaccharides and their analysis by using capillary electrophoresis. 

Mariani G, Benfenati E, Fanelli R. 1995. A NICI-GC-MS method to analyze endosulfan in biological samples. Int J Environ Anal Chem 58(l-4) 67... 

Experimental evidence indicates that many marine bacteria produce TTXs. However, TTX production by some bacteria has not been validated since TTX and anhydro-like TTX are described as "difficult to detect" by using HPLC and GC-MS methods, and show no activity in the mouse bioassay. 

In recent years, much effort has been devoted to developing HPLC-MS methods for natural compounds. The main difficulty lies in the different operating conditions of HPLC and MS. While HPLC operates using high flow rates, high pressures, and liquid phases near room temperature, MS uses low flow rates, high vacuum, and a gas phase ion analyzer. Various interfaces allow for online coupling of these two... 

Calcium exists in the human body as Ca(II) protein-bound and free Ca (II) ions (Dilana et al. 1994). For total extracellular Ca in plasma, serum and urine a definitive isotope dilution-mass spectrometry (ID-MS) method exist. Free Ca(II) in plasma/serum can be determined with PISE, but no definitive and reference methods exist. For Ca in faeces, tissue and blood flame atomic absorption (FAAS) is used widely. 

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