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Pharmacokinetics of digoxin and its 4‴-acetyl-and methylderivates in the rat (1972)

Rietbrock, N. ; Abshagen, U. ; Bergmann, K. v. ; [et al.]

Springer

Naunyn-Schmiedeberg's archives of pharmacology 274 (1972), S. 171-181

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ISSN: 1432-1912

Keywords: Digoxin ; 4‴-Acetyldigoxin ; 4‴-Methyldigoxin ; Absorption Velocities ; Blood Level ; Biliar Excretion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The kinetics of absorption, of changes in blood concentration, and of biliary excretion after the i.v. and i.d. administration of 40 μCi each, of digoxin, 4‴-acetyldigoxin and 4‴-methyldigoxin were studied in biliary fistula rats. The highest blood concentrations were found after the i.v. administration of 4‴-methyldigoxin, which decline with a half life time of 10 h, compared with 5.6 and 4.5 h for 4‴-acetyldigoxin and digoxin respectively. 71%, 55% and 17% of the dose were excreted in the bile within 12 h after the i.v. administration of digoxin, 4‴-acetyldigoxin and 4‴-methyldigoxin. The blood concentrations observed after the i.d. administration of digoxin and 4‴-acetyldigoxin show almost identical pharmacokinetics with respect to height and elimination velocity (half life 7.0 h for digoxin and 7.5 h for 4‴-acetyldigoxin). In contrast, following the i.d.administration of 4‴-methyldigoxin, blood concentrations, which were twice as high, were observed and declined with the same half life as after the i.v. administration. Determination of the disappearance rates of these glycosides from the intestinal lumen reveals a biphasic course of absorption. A first phase, with k values of 0.4, 0.5, 1.2 for digoxin, 4‴-acetyldigoxin and 4‴-methyldigoxin respectively is followed by a second phase with k values of 0.04, 0.04, 0.001 for digoxin, 4‴-acetyldigoxin and 4‴-methyldigoxin. Thus, 4‴-methyldigoxin is almost completely absorbed within the first two hours, while digoxin and 4‴-acetyldigoxin continue to be absorbed during the following hours. The absorption velocity of digoxin from the ileum was found to be one half of that seen in the duodenum. But this slow absorption, as well, follows a biphasic course. The data indicate that 4‴-methyldigoxin is absorbed at a distinctly higher rate than 4‴-acetyldigoxin and digoxin. Acetylation in 4‴ position evidently provides no important advantage with respect to absorption. While this study allows the determination of absorption and excretion velocities, no account of absorption quotes is given.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00501851

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Evaluation of the enterohepatic circulation after 3H-digoxin administration in the rat (1972)

Abshagen, U. ; Bergmann, K. v. ; Rietbrock, N.

Springer

Naunyn-Schmiedeberg's archives of pharmacology 275 (1972), S. 1-10

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ISSN: 1432-1912

Keywords: Enterohepatic Circulation ; Pharmacokinetics ; Digoxigenin-Bis- and Mono-Digitoxoside ; Polar Conjugates

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary After intraduodenal administration of 3H-digoxin (d) in biliary fistula (b.f.) rats, the total radioactivity in blood and bile is eliminated with t1/2 of 7 h in both fluids. In rats with intact enterohepatic circulation (e.c.), a t1/2 of 13.5 h was observed in blood and of 22 h in bile. To explain the much longer t1/2 in bile than in blood, the pharmacokinetics were studied of all substances, which might participate in e.c. after d administration. E.c. of the water soluble fraction is negligible since almost no absorption was found. Digoxigenin-bis- (b) and monodigitoxoside (m) showed approximately the same absorption kinetics as d. However, the blood levels of radioactivity after i.d. administration of these metabolites in b.f. rats were 5–6 times lower than those after d as a consequence of higher biliary excretion. 90–95% of the absorbed amounts of b and m were extrected in bile within 11 h compared with 61% after d administration. Thus the far longer t1/2 of elimination of radioactivity in bile than in blood after i.d. administration of d in rats with e.c. seemed to be due to a short circuit of b and m between intestine and liver. Evidence for this comes from the chromatographic analysis of the total radioactivity in the bile of these animals which shows that significantly more b is present in the bile of rats with e.c. than b.f. rats. No differences were found in the case of m, which on one hand is formed to a lesser extent and is on the other rapidly converted to polar metabolites, which are not reabsorbed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00505063

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