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Elimination of the low-molecular weight proteinase inhibitor camostate (FOY 305) and its degradation products by the rat liver (1987)

Beckh, K. ; Göke, B. ; Müller, R. ; [et al.]

Springer

Research in experimental medicine 187 (1987), S. 401-406

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ISSN: 1433-8580

Keywords: Camostate (FOY 305) ; Degradation ; Rat liver ; HPLC

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The elimination of the low molecular weight proteinase inhibitor camostate (FOY 305) was studied in rats after oral administration and in the the situ perfused rat liver. After feeding of camostate (400 mg/kg b. w.) only the metabolites (FOY 251, GBA) were detected in blood samples withdrawn from the portal and hepatic vein. This indicated a rapid degradation of FOY 305 after absorption from the gut lumen. The hepatic extraction of the anti-proteolytic active metabolite FOY 251 during a single liver passage was 23%. It remained almost constant over the period of 120 min. In the perfused rat liver, FOY 305 was given in concentrations comparable to the in vivo studies. It was eliminated by 20%. In these experiments, the compound was metabolized to FOY 251 and in minor amounts to guanidino-benzoate (GBA), the latter being an anti-proteolytic ineffective degradation product. In conclusion, a low hepatic extraction of FOY 305 led to pharmacologically effective concentrations of the active metabolite FOY 251 in the circulation after oral ingestion of the proteinase inhibitor.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01852177

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Heating matter with heavy ion beams (1988)

Arnold, R. C. ; Meyer-ter-Vehn, J.

Springer

The European physical journal 9 (1988), S. 65-78

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ISSN: 1434-6079

Keywords: 52.40. Mj ; 52.50. Gj ; 47.40.−x ; 44.40.+a ; 29.20.−c

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Heating dense matter with intense beams from heavy ion accelerators to temperatures of 1–1000 eV is explored in terms of models and numerical simulation. The emphasis is on the target configuration, the region of plasma parameters that can be reached, on heavy ion energy deposition in hot dense matter, and on the hydrodynamic and radiative target response. Accelerator options for this purpose and their scaling with ion energy are discussed. Inertial confinement fusion driven by heavy ion beams is one of the major motivations for this research, and the present paper provides practical tools for future experiments in this direction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01384449

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