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Fischer-Tropsch synthesis on Fe-Mn ultrafine catalysts (1994)

Li, Xianguo ; Zhong, Bing ; Peng, Shaoyi ; [et al.]

Springer

Catalysis letters 23 (1994), S. 245-250

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ISSN: 1572-879X

Keywords: Fe-Mn catalyst ; ultrafine particle ; FT synthesis ; active phase ; role of Mn

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The Fischer-Tropsch (FT) synthesis on Fe-Mn ultrafine catalysts prepared by a special degradation method of Fe-Mn complexes is presented. The effects of preparation method and Mn content on the FT performance are examined and the active phases and the role of Mn are elucidated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00811359

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Fluconazole Distribution to the Brain: A Crossover Study in Freely-moving Rats Using In Vivo Microdialysis (1996)

Yang, Hua ; Wang, Qin ; Elmquist, William R

Springer

Pharmaceutical research 13 (1996), S. 1570-1575

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ISSN: 1573-904X

Keywords: microdialysis ; fluconazole ; pharmacokinetics ; brain distribution

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. The purpose of this study was to determine if the microdialysis sampling technique is feasible to study the central nervous system distributional kinetics of a novel triazole antifungal agent, fluconazole, in an awake, freely-moving rat model, and to determine fluconazole distribution to the extracellular fluid (ECF) of the brain. Methods. The relative recovery of the microdialysis probes (CMA-12) was determined in vitro and in vivo by retrodialysis using UK-54,373, a fluorinated analog of fluconazole. Sprague-Dawley rats received 10 mg/kg and 20 mg/kg fluconazole IV bolus doses in a crossover design, and brain extracellular fluid fluconazole concentrations were monitored using microdialysis and on-line HPLC analysis. The plasma fluconazole concentration vs. time data were determined using sequential blood sampling and HPLC analysis. Results. There was no statistical difference between relative probe recoveries for both fluconazole and UK-54,373, either in vitro or in vivo, and probe recoveries did not change during the course of the in vivo crossover experiment. Fluconazole rapidly distributes into in the brain ECF and the average brain distribution coefficient (brain/plasma AUC ratio) was 0.60 ± 0.18 and was independent of dose. Plasma pharmacokinetic parameters were linear in the dose range studied. Conclusions. Fluconazole rapidly reaches a distributional equilibrium between brain extracellular fluid and plasma, and the distribution to the brain is substantial and not dependent on dose over a two-fold range. Furthermore, the results indicate that microdialysis utilizing UK-54,373 as the in vivo retrodialysis probe calibrator is a feasible method to study the transport of fluconazole into the central nervous system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016048100712

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The Design and Validation of a Novel Intravenous Microdialysis Probe: Application to Fluconazole Pharmacokinetics in the Freely-Moving Rat Model (1997)

Yang, Hua ; Wang, Qin ; Elmquist, William F.

Springer

Pharmaceutical research 14 (1997), S. 1455-1460

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ISSN: 1573-904X

Keywords: intravenous microdialysis ; blood sampling ; fluconazole ; pharmacokinetics

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. The purpose of this study was to design and validate a concentric, flexible intravenous microdialysis probe to determine drug concentrations in blood from the inferior vena cava of a freely-moving animal model. Methods. An intravenous microdialysis probe was constructed using fused-silica tubing and an acrylonitrile/sodium methallyl sulfonate copolymer hollow fiber. The probe was tested in vitro for the recovery of fluconazole and UK-54,373, a fluconazole analog used for probe calibration by retrodialysis. Subsequent in vivo validation was done in rats (n = 7) that had a microdialysis probe inserted into the inferior vena cava via the femoral vein, and the femoral artery was cannulated for simultaneous blood sampling. Comparisons of fluconazole pharmacokinetic parameters resulting from the two sampling methods were performed at 2 and 10 days after probe implantation. Results. There were no statistical differences between the microdialysis sampling and conventional blood sampling methods for the T1/2, Cl, Vdss, and dose-normalized AUC by paired t-test (p 〉 0.05) for repeated dosing at day 2 and day 10 after probe placement. The probe recovery, as determined by retrodialysis, significantly decreased over the ten day period. This finding indicates the necessity for frequent recovery determinations during a long-term blood microdialysis experiment. Conclusions. These results show that microdialysis sampling in the inferior vena cava using this unique and robust probe design provides an accurate method of determining blood pharmacokinetics in the freely-moving rat for extended experimental periods. The probe design allows for a simple surgical placement into the inferior vena cava which results in a more stable animal preparation for long-term sampling and repeated-measures experimental designs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1012137209042

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Computer-assisted transposition of conditions in high-performance thin-layer chromatography to high-performance liquid chromatography for the separation of pesticides (1989)

Wang, Qin-Sun ; Gao, Ru-Yu ; Wang, Heng-Yan

Springer

Chromatographia 28 (1989), S. 285-288

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ISSN: 1612-1112

Keywords: Thin-layer chromatography ; Column liquid chromatography ; Mobile phase optimization ; HPTLC transposition to HPLC

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary A computer-assisted method is presented for mobile phase selection for the optimal separation of pesticides by HPTLC and HPLC. The system is based on a plot of solute retention value and separation criterion vs. binary mobile phase composition for graphic optimization. The result of HPTLC can be transposed to HPLC for optimal separation. The transposition equation is given.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02260776

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