Petra Ritter scite author profile

Petra Ritter

4Publications

2Citation Statements Received

11Citation Statements Given

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Institute of Molecular Biology

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Studies on Pharmacokinetics of STS 557 in Animal Species and Man

Hobe

Hillesheim

Schumann

et al. 2009

Exp Clin Endocrinol Diabetes

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Following oral and i.v. administration of [14 alpha, 15 alpha-3H]-STS 557 to beagle dogs, baboons, rats and female volunteers, plasma level courses of total radioactivity and STS 557, and radioactivity excretion in urine and feces have been investigated. Bioavailability of orally administered STS 557 was found to be 80--90% in man and beagle dog, 70--80% in baboon and rat. Concerning the systemic availability following oral administration of equivalent doses, the following order was established: beagle dog greater than man greater than baboon greater than rat. Equilibrium dialysis indicates species differences in plasma protein binding and a considerable part of STS 557 to be present in plasma unbound. STS 557 is rather rapidly eliminated from the plasma compartment of all species investigated with half lives less than or equal to 10 h. As an additional time parameter of pharmacokinetics the "mean residence time" was used. Urinary excretion of STS 557 metabolites is dominant in all species, including the rat. In contrast to the great part of STS 557 in plasma total radioactivity, only small amounts of unchanged STS 557 are excreted in urine. First results of current studies in rabbits are presented, too.

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Studies on the Biotransformation of the Progestagen Dienogest in the Rabbit ^*)

Hobe

Schön²,

Wehrberger³

et al. 2009

Exp Clin Endocrinol Diabetes

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Following administration of 14 alpha, 15 alpha-3H-Dienogest (STS 557, 17 alpha-cyanomethyl-17 beta-hydroxy-4, 9-estradien-3-one) to female rabbits, extracts from urine, bile and plasma were separated by means of HPLC. Urinary and biliary metabolites are characterized by patterns of high complexity. From the mass spectra and UV absorption data of the urinary Dienogest metabolites a variety of biotransformation reactions has been derived like: hydroxylation in different positions of the Dienogest molecule, among these the 11-position; reduction of the 3-oxo group to 3-hydroxy; introduction of 2 and 4 hydrogen atoms; aromatization of ring A; transformation of 17 alpha-CH2CN to CH2OH, and formation of compounds with a 5(10), 9(11)-diene structure. Some of these reactions occur simultaneously resulting in a very complicated metabolite spectrum. Possibly the multiple effects of Dienogest established in animals are partially caused by metabolites.

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Pharmacokinetics of the Progestin Dienogest (STS 557) in Rabbits^*)

Hillesheim¹,

Ritter²,

Valentin³

et al. 2009

Exp Clin Endocrinol Diabetes

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Disposition and excretion of the progestin Dienogest (17 alpha-cyanomethyl-17 beta-hydroxy-estra-4,9-dien-3-one, STS 557) were investigated in female rabbits. Following single and repeated administration of the tritium-labelled compound the plasma concentration courses of total radioactivity (Dienogest + metabolites) and of the parent drug alone were estimated and also the urinary and fecal excretion of total radioactivity. From these data basic pharmacokinetic parameters were calculated. Additionally, the enterohepatic recirculation of biliary excreted metabolites was studied using bile of donors for oral administration to recipients. Following oral administration the high bioavailability of Dienogest which was already found in other animal species and in man could also be confirmed with rabbits. The parameters of Dienogest disposition do not differ significantly from those of the progestin levonorgestrel. Thus, the different effects of the both progestins in the McPhail-Clauberg assay in the rabbit cannot be attributed to differences in pharmacokinetics.

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Zur Pharmakokinetik und Biotransformation von Dienogest bei verschiedenen Tierspezies

Hobe¹,

Hillesheim²,

Schön³

et al. 1995

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Petra Ritter

Studies on Pharmacokinetics of STS 557 in Animal Species and Man

Studies on the Biotransformation of the Progestagen Dienogest in the Rabbit ^*)

Pharmacokinetics of the Progestin Dienogest (STS 557) in Rabbits^*)

Zur Pharmakokinetik und Biotransformation von Dienogest bei verschiedenen Tierspezies

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About

Petra Ritter

Studies on Pharmacokinetics of STS 557 in Animal Species and Man

Studies on the Biotransformation of the Progestagen Dienogest in the Rabbit *)

Pharmacokinetics of the Progestin Dienogest (STS 557) in Rabbits*)

Zur Pharmakokinetik und Biotransformation von Dienogest bei verschiedenen Tierspezies

Contact Info

Product

Resources

About

Studies on the Biotransformation of the Progestagen Dienogest in the Rabbit ^*)

Pharmacokinetics of the Progestin Dienogest (STS 557) in Rabbits^*)