Your search keyword '"Regine Sitruk Ware"' showing total 7 results

1. Single-dose Pharmacokinetics of Nestorone®, a potential female-contraceptive

Author

Narender Kumar, Mohammad Bashir, Regine Sitruk-Ware, and Pramod Vishwanath Prasad

Subjects

medicine.medical_specialty, Metabolite, Clinical Biochemistry, Urine, Biochemistry, High-performance liquid chromatography, Rats, Sprague-Dawley, Excretion, Feces, chemistry.chemical_compound, Subcutaneous injection, Endocrinology, Pharmacokinetics, Tandem Mass Spectrometry, Internal medicine, Blood plasma, Contraceptive Agents, Female, medicine, Animals, Humans, Tissue Distribution, Molecular Biology, Pharmacology, Molecular Structure, business.industry, Organic Chemistry, Rats, chemistry, Female, business, Norprogesterones, Chromatography, Liquid

Abstract

A synthetic progestin Nestorone is being developed for female-contraception. This study was conducted to determine the distribution metabolism and excretion of tritium-labeled Nestorone ((3)H Nestorone) in adult female rats. Rats were injected subcutaneously (S.C.) with a single dose of 400 microCi (3)H Nestorone/kg BW. Its distribution and concentrations in blood plasma and other tissues were determined at defined times. The excreta were examined for elimination of (3)H Nestorone. Radioactivity in all samples was analyzed by liquid scintillation counter. Metabolite profiling was performed by HPLC and LC/MS analysis of the plasma urine and feces samples. Following subcutaneous injection of (3)H Nestorone the mean peak concentrations of radioactivity (C(max)) in the blood and plasma were 58.1 and 95.5 ng equiv. (3)H Nestorone/g respectively at 2-h postdose (T(max)). Thereafter the concentration of drug steadily declined through 96-h postdose with a terminal elimination half-life (t(1/2)) of 15.6 h. (3)H Nestorone-derived radioactivity was widely distributed in most tissues by 0.5 h and attained a mean maximal concentration by 2-h postdose. Approximately 81.4% and 7.62% of the administered dose was excreted via feces and urine respectively. In vivo metabolism of (3)H Nestorone resulted into a total of 19 metabolites. Among them two metabolites viz. 17alpha-deacetyl-Nestorone (M9) and 45-dihydro-17alpha-deacetyl-Nestorone (M19) were identified by HPLC and LC/MS analysis. Metabolite profiling of plasma samples showed that most of the circulating radioactivity was associated with unchanged parent drug and M19. The M19 was a major metabolite in the profiled urine and feces samples. Presence of large proportion of drug/drug-related material in feces suggested that the biliary excretion is a main elimination route of (3)H Nestorone. The distribution metabolism and excretion profiles of (3)H Nestorone obtained in this study provide a fairly good insight about its fate in women. Copyright 2010 Elsevier Inc. All rights reserved.

Published

2010

2. Nestorone®: clinical applications for contraception and HRT

Author

Yun-Yen Tsong, Narender Kumar, Margaret Small, Regine Sitruk-Ware, Kalyan Sundaram, and Theodore M. Jackanicz

Subjects

Ovulation, medicine.medical_specialty, Time Factors, Hormone Replacement Therapy, medicine.drug_class, media_common.quotation_subject, medicine.medical_treatment, Clinical Biochemistry, Pharmacology, Ethinyl Estradiol, Biochemistry, chemistry.chemical_compound, Endocrinology, Internal medicine, Progesterone receptor, Contraceptive Agents, Female, Animals, Humans, Endocrine system, Medicine, Molecular Biology, Progesterone, media_common, business.industry, Organic Chemistry, Hormone replacement therapy (menopause), 19-Norprogesterone, Vaginal ring, Rats, Contraception, Models, Chemical, chemistry, Hormone receptor, Estrogen, Female, business, Norprogesterones, Protein Binding

Abstract

The 19-nor derivatives of progesterone are referred to as “pure” progestational molecules as they bind almost exclusively to the progesterone receptor (PR) without interfering with receptors of other steroids. In this category is Nestorone ® , which has strong progestational activity and antiovulatory potency with no androgenic or estrogenic activity in vivo. These properties make it highly suitable for use in contraception and hormonal therapy (HT). Due to its high potency, very low doses of Nestorone may be delivered via long-term sustained-release delivery systems. Nestorone, 75 or 100 μg per day, released by vaginal ring has suppressed ovulation in women, with inhibition of follicular maturation. A vaginal ring releasing both 150 μg of Nestorone and 15 μg of ethinyl estradiol per day has effectively suppressed ovulation for 13 consecutive cycles. Nestorone has also been used effectively in a single implant for contraception in breastfeeding women and shows promise for use in transdermal systems as a contraceptive or for HT when combined with estrogen.

Published

2003

3. Progestins and cardiovascular risk markers

Author

Regine Sitruk-Ware

Subjects

Nomegestrol acetate, medicine.medical_specialty, Clinical Biochemistry, Vasomotion, Biochemistry, chemistry.chemical_compound, Endocrinology, Risk Factors, Internal medicine, Animals, Humans, Medicine, Medroxyprogesterone acetate, Molecular Biology, Randomized Controlled Trials as Topic, Pharmacology, Progesterone Congeners, business.industry, Organic Chemistry, medicine.disease, Norethisterone acetate, Atheroma, chemistry, Cardiovascular Diseases, Toxicity, Blood Vessels, Female, Progestins, business, medicine.drug, Hormone

Abstract

Several risks are attributed to progestins as a class-effect; however, the progestins used in hormone replacement therapy (HRT) have varying pharmacologic properties and do not induce the same side effects. Natural progesterone (P) and some of its derivatives, such as the 19-norprogesterones, do not exert any androgenic effect and, hence, have no negative effect on the lipids. On the other hand, the 19-nortestosterone derivatives and even some 17-hydroxyprogesterones have a partial androgenic effect, which may explain some of the negative effects observed on surrogate markers of cardiovascular risk. The relevance of the lipid changes induced by sex steroids has been questioned, and studies in the female cynomolgous monkey have not shown a direct relationship to atherosclerosis. Results suggest that estrogens (E) have antiatherogenic effects and that P does not reverse the beneficial effect of estradiol. Also, sex hormones modulate the vasomotor response of the main arteries. E preserves the normal endothelium-mediated dilation of coronary arteries, and P does not reverse this potential cardioprotective mechanism. In the same animal model, the addition of cyclic or continuous medroxyprogesterone acetate (MPA) to E inhibited vasodilatation by 50%, while nomegestrol acetate did not diminish the E-induced vasodilatation. Not all progestins act similarly on vasomotion or affect cardiovascular risk factors in the same way. Progestins, such as MPA or norethisterone acetate (NETA), exert a partial detrimental effect on the beneficial actions of estrogens with regard to lipid changes, atheroma development, or vasomotion. In contrast, progesterone itself does not have this inhibitory effect on lipid changes and vascular reactivity in animal models or on exercise-induced myocardial ischemia in humans. Nonandrogenic molecules of P itself and of derivatives, such as 19-norprogesterones, would appear neutral on the vessels. Several ongoing randomized controlled trials of HRT are focusing on primary or secondary prevention of coronary heart disease. Unfortunately, most of these large trials have selected the same HRT regimen for their study design. Further studies with other treatment regimens are thus needed and should consider the various steroids used in different countries.

Published

2000

4. Nomegestrol acetate, a novel progestogen for oral contraception

Author

Alfred O. Mueck and Regine Sitruk-Ware

Subjects

Nomegestrol acetate, Ovulation, medicine.medical_specialty, Nomegestrol, Receptors, Steroid, Norpregnadienes, medicine.drug_class, media_common.quotation_subject, medicine.medical_treatment, Clinical Biochemistry, Ovulation Inhibition, Pharmacology, Biochemistry, chemistry.chemical_compound, Endometrium, Endocrinology, Internal medicine, Progesterone receptor, medicine, Humans, Levonorgestrel, Molecular Biology, media_common, Progestogen, Progesterone Congeners, business.industry, Organic Chemistry, Estrogens, Megestrol, Venous Thromboembolism, Contraceptives, Oral, Synthetic, chemistry, Estrogen, Female, business, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Nomegestrol acetate (NOMAC) is a potent, highly selective progestogen, which is structurally similar to 19-norprogesterone and characterized as a full agonist at the progesterone receptor, with no or minimal binding to other steroid receptors, including the androgen and glucocorticoid receptors. In animal models, NOMAC demonstrated moderate antiandrogenic activity and strong antiestrogenic activity. In clinical studies, the progestogen was associated with effective suppression of gonadotropic activity and ovulation in premenopausal women, and a neutral impact on hemostasis, lipids, and carbohydrate metabolism. In normal and cancerous human breast tissue, NOMAC has shown favorable effects on estrogen metabolism, and in human breast cancer cell lines in vitro, it does not stimulate cell proliferation. The pharmacologic profile of NOMAC suggested that it would be well suited for combination with a physiologic estrogen in a combined oral contraceptive (COC), with the aim of achieving effective contraception with good cycle control and a favorable safety profile. A monophasic COC containing NOMAC 2.5 mg and 17β-estradiol (E2) 1.5 mg, administered in a 24/4-day regimen, is currently under clinical investigation. In a phase III study, NOMAC/E2 provided consistent and robust ovulation inhibition, with contraceptive effects that compared favorably with those of drospirenone 3 mg/ethinyl estradiol (EE) 30 μg. Investigators for a second phase III study reported less overall impact with NOMAC/E2 on hemostatic, lipid, inflammatory, and carbohydrate metabolism parameters than with levonorgestrel 150 μg/EE 30 μg. These clinical findings are promising; however, full publication of results from the pivotal phase III trials of NOMAC/E2 is pending.

Published

2010

5. WITHDRAWN: Development of a sensitive liquid phase-radioimmunoassay of 7α-methyl-19-nortestosterone

Author

Narender Kumar, Pramod V. Prasad, Tulsidas G. Shrivastav, and Regine Sitruk-Ware

Subjects

Pharmacology, Endocrinology, Chromatography, Chemistry, Organic Chemistry, Clinical Biochemistry, Liquid phase, Radioimmunoassay, Molecular Biology, Biochemistry

Abstract

This article has been withdrawn at the request of the Publisher and the Editor-in-Chiefs. The Publisher apologizes for any inconvenience this may cause. The full Elsevier Policy on Article Withdrawal can be found at http://www.elsevier.com/locate/withdrawalpolicy

Published

2010

6. Distribution, metabolism and excretion of a synthetic androgen 7alpha-methyl-19-nortestosterone, a potential male-contraceptive

Author

Regine Sitruk-Ware, Ren-Shan Ge, Narender Kumar, Mark Willman, Pramod Vishwanath Prasad, and Ramamani Arumugam

Subjects

Male, medicine.medical_specialty, medicine.drug_class, Metabolite, Clinical Biochemistry, Biochemistry, Excretion, Rats, Sprague-Dawley, chemistry.chemical_compound, Subcutaneous injection, Endocrinology, Internal medicine, medicine, Animals, Humans, Nandrolone, Molecular Biology, Contraceptives, Postcoital, Hormonal, Pharmacology, biology, Organic Chemistry, Contraceptive Agents, Male, Cytochrome P450, Metabolism, Androgen, Rats, chemistry, Organ Specificity, Microsome, biology.protein, Microsomes, Liver, Hormone

Abstract

A synthetic androgen 7alpha-Methyl-19-nortestosterone (MENT) has a potential for therapeutic use in 'androgen replacement therapy' for hypogonadal men or as a hormonal male-contraceptive in normal men. Its tissue distribution, excretion and metabolic enzyme(s) have not been reported. Therefore, the present study tested the distribution and excretion of MENT in Sprague-Dawley rats castrated 24h prior to the injection of tritium-labeled MENT ((3)H-MENT). Rats were euthanized at different time intervals after dosing, and the amount of radioactivity in various tissues/organs was measured following combustion in a Packard oxidizer. The radioactivity (% injected dose) was highest in the duodenal contents in the first 30min of injection. Specific uptake of the steroid was observed in target tissues such as ventral prostate and seminal vesicles at 6h, while in other tissues radioactivity equilibrated with blood. Liver and duodenum maintained high radioactivity throughout, as these organs were actively involved in the metabolism and excretion of most drugs. The excretion of (3)H-MENT was investigated after subcutaneous injection of (3)H-MENT into male rats housed in metabolic cages. Urine and feces were collected at different time intervals (up to 72h) following injection. Results showed that the radioactivity was excreted via feces and urine in equal amounts by 30h. Aiming to identify enzyme(s) involved in the MENT metabolism, we performed in vitro metabolism of (3)H-MENT using rat and human liver microsomes, cytosol and recombinant cytochrome P(450) (CYP) isozymes. The metabolites were separated by thin-layer chromatography (TLC). Three putative metabolites (in accordance with the report of Agarwal and Monder [Agarwal AK, Monder C. In vitro metabolism of 7alpha-methyl-19-nortestosterone by rat liver, prostate, and epididymis. Endocrinology 1988;123:2187-93]), [i] 3-hydroxylated MENT by both rat and human liver cytosol; [ii] 16alpha-hydroxylated MENT (a polar metabolite) by both rat and human hepatic microsomes; and [iii] 7alpha-methyl-19-norandrostenedione (a non-polar metabolite) by human hepatic microsomes, were obtained. By employing chemical inhibitors and specific anti-CYP antibodies, (3)H-MENT was found to be metabolized specifically by rat CYP 2C11 and 3-hydroxysteroid dehydrogenase (3-HSD) enzymes whereas in humans it was accomplished by CYP 3A4, 17beta-hydroxysteroid dehydrogenase (17beta-HSD) and 3-HSD enzymes.

Published

2008

7. Progestins in hormonal therapy (HT) today, tomorrow and the next day: a roundtable discussion

Author

Regine Sitruk-Ware

Subjects

medicine.medical_specialty, medicine.drug_class, Hormone Replacement Therapy, Clinical Biochemistry, Breast Neoplasms, Bioinformatics, Biochemistry, Ovarian hormone, Endocrinology, Memory, Internal medicine, medicine, Humans, Molecular Biology, Pharmacology, Neurons, Clinical Trials as Topic, business.industry, Organic Chemistry, Estrogen, Cardiovascular Diseases, Hormonal therapy, Female, Progestins, business, Progestin, Hormone

Published

2003