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Post-analysis separation

Trace amounts of Tc are also determined in filter paper and vegetable samples by neutron activation analysis The procedure consists of the following major steps separation of technetium from the sample, thermal neutron irradiation of the Tc fraction to produce °°Tc, post-irradiation separation and purification of °°Tc from other activated nuclides, and counting of the 16 s Tc in a low-background P counter. The estimated detection limits for Tc in this procedure are 5 x 10 g in filter paper and 9 x 10 g in vegetable samples. [Pg.134]

There are several configurations of this technique that include instrumental neutron activation analysis (INAA) where the sample is measured without any chemical treatment and radiochemical NAA (RNAA) where post-irradiation separation is done. [Pg.45]

One of the recent advances in mass spectrometry (MS) instrn-mentation is the incorporation of post-ionization separations on the basis of ion mobility (IM) combined with snbseqnent MS analysis (IM-MS). Importantly, IM-MS adds an additional dimension of separations on the basis of analyte strnctnre to facilitate interpretation of MS spectra directly from complex biological samples. Typically separations in the IM dimension are completed in 100 s of microseconds to milliseconds, thus imaging... [Pg.363]

The most widely appHed colorimetric assay for amino acids rehes upon ninhydrin-mediated color formation (129). Fluorescamine [38183-12-9] and (9-phthalaldehyde [643-79-8] are popular as fluorescence reagents. The latter reagent, ia conjunction with 2-mercaptoethanol, is most often used ia post-column detection of amino acids separated by conventional automated amino acid analysis. More recently, determiaation by capillary 2one electrophoresis has been developed and it is possible to determine attomole quantities of amino acids (130). [Pg.285]

Sputtered Neutral Mass Spectrometry (SNMS) is the mass spectrometric analysis of sputtered atoms ejected from a solid surface by energetic ion bombardment. The sputtered atoms are ionized for mass spectrometric analysis by a mechanism separate from the sputtering atomization. As such, SNMS is complementary to Secondary Ion Mass Spectrometry (SIMS), which is the mass spectrometric analysis of sputtered ions, as distinct from sputtered atoms. The forte of SNMS analysis, compared to SIMS, is the accurate measurement of concentration depth profiles through chemically complex thin-film structures, including interfaces, with excellent depth resolution and to trace concentration levels. Genetically both SALI and GDMS are specific examples of SNMS. In this article we concentrate on post ionization only by electron impact. [Pg.43]

In the post-World War II years, synthesis attained a different level of sophistication partly as a result of the confluence of five stimuli (1) the formulation of detailed electronic mechanisms for the fundamental organic reactions, (2) the introduction of conformational analysis of organic structures and transition states based on stereochemical principles, (3) the development of spectroscopic and other physical methods for structural analysis, (4) the use of chromatographic methods of analysis and separation, and (5) the discovery and application of new selective chemical reagents. As a result, the period 1945 to 1960 encompassed the synthesis of such complex molecules as vitamin A (O. Isler, 1949), cortisone (R. Woodward, R. Robinson, 1951), strychnine (R. Woodward, 1954), cedrol (G. Stork, 1955), morphine (M. Gates, 1956), reserpine (R. Woodward, 1956), penicillin V (J. Sheehan, 1957), colchicine (A. Eschenmoser, 1959), and chlorophyll (R. Woodward, 1960) (page 5). ... [Pg.3]

With the development of HPLC, a new dimension was added to the tools available for the study of natural products. HPLC is ideally suited to the analysis of non-volatile, sensitive compounds frequently found in biological systems. Unlike other available separation techniques such as TLC and electrophoresis, HPLC methods provide both qualitative and quantitative data and can be easily automated. The basis for the HPLC method for the PSP toxins was established in the late 1970 s when Buckley et al. (2) reported the post-column derivatization of the PSP toxins based on an alkaline oxidation reaction described by Bates and Rapoport (3). Based on this foundation, a series of investigations were conducted to develop a rapid, efficient HPLC method to detect the multiple toxins involved in PSP. Originally, a variety of silica-based, bonded stationary phases were utilized with a low-pressure post-column reaction system (PCRS) (4,5), Later, with improvements in toxin separation mechanisms and the utilization of a high efficiency PCRS, a... [Pg.66]

ECASS-II was designed to test a lower dose of rt-PA (0.9 mg/kg) during the same 0-6-hours time period after stroke onset, using similar inclusion criteria as in ECASS-I. ° The primary endpoint was the proportion with a favorable outcome on the mRS scale (defined as a score of 0 or 1). There was no difference in this outcome between rt-PA-treated and placebo controls (40% vs. 37%, p = 0.28). A separate analysis of the 158 subjects enrolled within 3 hours of stroke onset also showed no difference in the proportion with a favorable outcome (42% vs. 38%, p = 0.63) this result, however, must be treated with caution because in ECASS-II there was a substantially lower number of patients treated within 3 hours of stroke onset, compared to the 1995 NINDS rt-PA study. Parenchymal hematoma on post-treatment CT was seen in 12% of rt-PA-treated and 3% of placebo patients (p < 0.001). The 90-day mortality rate was 11 % for the rt-PA group and 11 % for the placebo group (p = 0.54). Protocol violations were much less frequent in ECASS-II compared to ECASS-I (9% vs. 18%), probably because of standardized training in CT interpretation at the study sites. [Pg.44]

The analysis of amino acids involves chromatographic issues similar to those encountered in analysis of simple amines. Underivatized amino acids have, with a few exceptions, weak UV absorbance and a strong tendency to interact with stationary phases in undesirable ways. Underivatized amino acids are normally separated with ion exchange chromatography, then visualized post-column by reaction with ninhydrin, o-phthaladehyde (OPA), or other agents. Underivatized tryptophan and the metabolites kynurenine, 3-hydroxykynurenine, kynurenic acid, and 3-hydroxyanthranilic acid, were separated on a Partisphere 5-p ODS column with fluorescent detection.121... [Pg.166]

The sources of uncertainty in NAA analysis are well understood, and can be derived in advance, modelled and assessed experimentally. There are two main kinds of interferences in the calculation of trace-element concentrations by INAA. The first one is formation of the same radionuclide from two different elements. Another kind of interference is from two radionuclides having very close y lines. Whenever interferences occur, the radionuclide of interest can be carried through a post-irradiation radiochemical separation without the danger of contamination. [Pg.664]

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See also in sourсe #XX -- [ Pg.166 ]



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