Bioavailability Of Progesterone Research Articles

Enhanced Oral Bioavailability of Progesterone in Bilosome Formulation: Fabrication, Statistical Optimization, and Pharmacokinetic Study.

Progesterone, a female sex steroid hormone, is highly lipophilic, leading to poor oral bioavailability. This study aimed to develop a progesterone bilosome system to enhance its oral bioavailability and retain it longer in the body. Progesterone vesicles were formulated with bile salts by thin film hydration method to prevent enzymatic and bile acid degradation. The Box-Behnken experimental design was used to statistically optimize progesterone bilosomes by checking the effect of phosphatidylcholine, cholesterol, and sodium deoxycholate on vesicle size, zeta potential, and entrapment efficiency. The optimum batch showed 239.5nm vesicle size, -28.2mV zeta potential and 84.08% entrapment efficiency, respectively, which were significantly affected by phosphatidylcholine and cholesterol concentration. The successful incorporation of progesterone in the system was evident from ATR-FTIR analysis that revealed no sharp progesterone peaks in bilosomes. TEM analysis confirmed the spherical structure and uniform bilosome vesicles. Furthermore, the in vitro drug release of progesterone bilosomes revealed a sustained pattern exhibiting 90% drug release in 48h. The pharmacokinetic study in female ovariectomized Wistar rats confirmed the 4.287- and 9.75-fold enhanced oral bioavailability of the progesterone bilosomes than marketed capsules and progesterone API, respectively. Therefore, progesterone bilosome formulation can be further explored for improved oral administration in chronic treatments.

Administration of a single dose of long-acting injectable progesterone formulation reduces the stress response to weaning in anestrous ewes

High circulating progesterone concentrations decrease the responses to stressful situations in farm ruminants. We hypothesized that administering a single dose of long-acting progesterone formulation reduces the stress response of anestrous ewes to weaning. The aim of this study was to compare the behavioral, cortisol, and blood protein responses to weaning of anestrous ewes treated or not, with a single dose of a long-acting progesterone formulation. A complementary aim was to characterize the bioavailability of progesterone after this treatment. Thirty-six multiparous single-lambing Corriedale ewes and their lambs were used in this study. The lambs were weaned at 6:30 h when they were 65 d old (d0), and were taken to another paddock without chemical, visual or auditory contact with their mothers, while the ewes remained in the same paddock. Immediately before weaning, while 19 ewes received oil based long-acting progesterone formulation, other 17 ewes remained as controls, receiving sunflower oil. Twelve ewes from each group were used for behavioral recordings, the other 5 untreated ewes and 7 treated ewes were used to characterize the cortisol response and the progesterone profile. Behaviors were recorded every 10th min for 3 h in the morning and 3 h in the afternoon on day minus 3, d0 and d2, and expressed as percentage of recordings each animal displayed each behavior on each day. Treated ewes were recorded more times standing up than ewes on the day of weaning (P < 0.05), but the reverse result was found 2 d after (P < 0.01). Treated ewes were recorded more times lying down than control ewes on d2 after weaning (P < 0.0001), when treated ewes were observed fewer times walking than control ewes (P = 0.0004), as also happened the day of weaning (P < 0.0001). On the day of weaning, treated ewes grazed and paced less than control ewes (P = 0.001 and P = 0.009). Treated ewes ruminated more than control ewes on the day of weaning (P = 0.02) and 2 d later (P = 0.0002). Control ewes also secreted more cortisol than progesterone-treated ewes (P = 0.03), with no effect of the treatment on the concentration of total proteins, albumin or globulins. While control ewes never had luteal progesterone concentrations (>0.5 ng/mL), treated ewes achieved luteal progesterone concentrations 2 h after its administration, and remained well above luteal levels until 15 h after administration. The administration of a single dose of long-acting progesterone formulation appears to be a viable choice in reducing the stress to weaning in ewes. Ewes treated with progesterone coped better with weaning, returning to their normal basal behavior earlier than untreated ones, and secreting lower cortisol levels.

Solubility and dissolution rate of progesterone cocrystals using 4-fluorobenzoic acid and 2-hydroxy-6-naphthoic acid as coformers

The objective of our study was to improve the solubility and consequently enhance the oral bioavailability of progesterone, an endogenous steroid with poor water solubility, by synthesizing cocrystals. Progesterone cocrystals with pharmaceutically acceptable conformers, namely, 4-fluorobenzoic acid and 2-hydroxy-6-naphthoic acid, in a stoichiometric ratio of 1:4 and 1:2, respectively, were synthesized using solution crystallization technology. The cocrystals were characterized using single-crystal X-ray diffraction, powder X-ray diffraction, Fourier-transform infrared spectroscopy, differential scanning calorimetry, and thermogravimetry. Results from the solubility and dissolution experiments indicated that the solubility of both progesterone cocrystals in water and dissolution rate in 0.1 M HCl solution (pH = 1) could enhance the aqueous solubility of progesterone 1.93 and 1.12 times, respectively. Therefore, the formulation of pharmaceutical cocrystals is a potentially viable and effective approach to improve the solubility of active pharmaceutical ingredients that are poorly water soluble.

Progesterone Metabolism by Human and Rat Hepatic and Intestinal Tissue.

Following oral administration, the bioavailability of progesterone is low and highly variable. As a result, no clinically relevant, natural progesterone oral formulation is available. After oral delivery, first-pass metabolism initially occurs in the intestines; however, very little information on progesterone metabolism in this organ currently exists. The aim of this study is to investigate the contributions of liver and intestine to progesterone clearance. In the presence of NADPH, a rapid clearance of progesterone was observed in human and rat liver samples (t1/2 2.7 and 2.72 min, respectively). The rate of progesterone depletion in intestine was statistically similar between rat and human (t1/2 197.6 min in rat and 157.2 min in human). However, in the absence of NADPH, progesterone was depleted at a significantly lower rate in rat intestine compared to human. The roles of aldo keto reductases (AKR), xanthine oxidase (XAO) and aldehyde oxidase (AOX) in progesterone metabolism were also investigated. The rate of progesterone depletion was found to be significantly reduced by AKR1C, 1D1 and 1B1 in human liver and by AKR1B1 in human intestine. The inhibition of AOX also caused a significant reduction in progesterone degradation in human liver, whereas no change was observed in the presence of an XAO inhibitor. Understanding the kinetics of intestinal as well as liver metabolism is important for the future development of progesterone oral formulations. This novel information can inform decisions on the development of targeted formulations and help predict dosage regimens.

Steroid hormone bioavailability is controlled by the lymphatic system

The steroid hormone progesterone accounts for immune tolerance in pregnancy. Enhanced progesterone metabolism to 6α-OH-pregnanolone occurs in complicated pregnancies such as in preeclampsia with preterm delivery or intrauterine growth restriction, and in cancer. As lymphatic endothelial cells (LECs) promote tumor immunity, we hypothesized that human LECs modify progesterone bioavailability. Primary human LECs and mice lymph nodes were incubated with progesterone and progesterone metabolism was analyzed by thin layer chromatography and liquid chromatography-mass spectrometry. Expression of steroidogenic enzymes, down-stream signal and steroid hormone receptors was assessed by Real-time PCR. The placental cell line HTR-8/SV neo was used as reference. The impact of the progesterone metabolites of interest was investigated on the immune system by fluorescence-activated cell sorting analysis. LECs metabolize progesterone to 6α-OH-pregnanolone and reactivate progesterone from a precursor. LECs highly express 17β-hydroxysteroid dehydrogenase 2 and are therefore antiandrogenic and antiestrogenic. LECs express several steroid hormone receptors and PIBF1. Progesterone and its metabolites reduced TNF-α and IFN-γ production in CD4+ and CD8+ T cells. LECs modify progesterone bioavailability and are a target of steroid hormones. Given the global area represented by LECs, they might have a critical immunomodulatory control in pregnancy and cancer.

Optimization of sulfobutyl-ether-β-cyclodextrin levels in oral formulations to enhance progesterone bioavailability

Progesterone oral dose regimens are indicated for the treatment of luteal phase deficiency and estrogen dominance. The poor aqueous solubility of progesterone leads to erratic oral absorption, resulting in suboptimal or excessive plasma levels. Developing a formulation to enhance the solubility of progesterone in the gastrointestinal tract would be beneficial to decrease drug absorption variability and increase bioavailability. The solubility of progesterone at 400 mM sulfobutyl-ether-β-cyclodextrin (SBE-β-CD) concentration was ~7000-fold greater than its intrinsic solubility, aided by the formation of SBE-β-CD–progesterone complex. The complex was characterized using differential scanning colorimeter, Fourier-transform infrared (FTIR) and nuclear magnetic resonance (NMR) spectroscopy techniques. FTIR and NMR studies of the complex confirm the interaction between functional groups of SBE-β-CD and progesterone to form an inclusion complex. Molecular modeling studies demonstrated progesterone binding poses with four probable SBE-β-CD isomers and these results matched with NMR and FTIR data. The progesterone oral formulations were optimized by increasing the levels of SBE-β-CD in the formulation to prevent the displacement of progesterone from the complex by gastrointestinal contents. The oral bioavailability of progesterone in rats was increased 5-fold when administered with the optimized formulation compared to administration with progesterone API capsules. Studies demonstrated that the optimized formulation prevents precipitation of progesterone in the intestinal tract and increases progesterone oral bioavailability in rats.

Study Evaluation Maternity Nutrition and Pregnancy In Vitro and In Vivo—Progesterone Nanocrystal Injection

In this study, the insoluble drug, progesterone, was formulated into a progesterone nanocrystal injection to improve the saturation solubility, release rate, and efficacy of progesterone, as well as to increase the relative bioavailability of progesterone, reduce the subsequent irritation, and minimize the toxicity; the advantages and feasibility of the progesterone nanocrystalline injection in the prevention of premature delivery and protection against pregnancy-associated risks in pregnant females was evaluated. The wet grinding method was used to prepare the progesterone nanocrystalline injection; its morphology, particle size, and potential were characterized by transmission electron microscopy. Crystal structure was analyzed by X-ray powder diffraction; the solubility of the injection and the progesterone drug substance in water, and the In Vitro release of the drug were evaluated for its nanometer effect In Vitro. Rabbits were injected with the progesterone nanocrystal injection as well as commercially available progesterone injections for evaluation in vivo. The formulation process of a progesterone nanocrystal injection is feasible. The crystal form is stable and the particle size is uniform. Moreover, we found that it improves the release rate, saturation solubility, and bioavailability of progesterone, while reducing muscle irritation. The results have clinical research significance.

Chitosan-modified cholesterol-free liposomes for improving the oral bioavailability of progesterone

Based on the structurally similar properties of progesterone and cholesterol, chitosan-coated cholesterol-free liposomes (CS-Lipo/Prog) were formulated. CS-Lipo/Prog are spherical and uniform in size (662.1±19.3nm) with positive potential (28.19±1.97mV). The average drug entrapment efficiency (EE) is approximately 80%. The in vitro release profile of CS-Lipo/Prog shows sustained release. The in vitro stability evaluation demonstrated that CS-Lipo/Prog can efficiently shield Prog from degradation in the gastrointestinal tract. CS-Lipo/Prog showed a longer MRT and higher AUC0-infinite after oral administration to mice than in the control group (progesterone-free). The relative bioavailability of CS-Lipo/Prog was higher than that of progesterone soft capsules (QINING®) and Lipo/Prog. Collectively, these findings suggest that cholesterol-free chitosan-coated liposomes are a promising alternative for improving the oral bioavailability of progesterone.

Bioavailability and Fate of Sediment-Associated Progesterone in Aquatic Systems.

The environmental fate and bioavailability of progesterone, a steroid hormone known to cause endocrine-disrupting effects in aquatic organisms, is of growing concern due to its occurrence in the environment in water and sediment influenced by wastewater treatment plant and paper mill effluents, as well as livestock production. The objective of this study was to evaluate the fate of progesterone in two natural sediments and the corresponding alteration of gene expression in three steroid-responsive genes; vitellogenin, androgen receptor and estrogen receptor alpha. When exposed to progesterone-spiked sand, fathead minnows (Pimephales promelas) exhibited significant reductions in the expression of vitellogenin and androgen receptor expression. In contrast, fish exposed to progesterone associated with the silty loam sediment did not show a biological response at 7 days and only realized a significant reduction in vitellogenin. In both sediments, progesterone degradation resulted in the production of androgens including androsteinedione, testosterone, and androstadienedione, as well as the antiestrogen, testolactone. Differences in compound fate resulted in organism exposure to different suites of metabolites either in water or associated with the sediment. Results from this study suggest that environmental progestagens will lead to defeminization at environmentally relevant concentrations, and that exposure is influenced by sediment properties.

Development and in vitro/in vivo evaluation of Zn-pectinate microparticles reinforced with chitosan for the colonic delivery of progesterone

The colon is a promising target for drug delivery owing to its long transit time of up to 78 h, which is likely to increase the time available for drug absorption. Progesterone has a short elimination half-life and undergoes extensive first-pass metabolism, which results in very low oral bioavailability (∼25%). To overcome these shortcomings, we developed an oral multiparticulate system for the colonic delivery of progesterone. Zn-pectinate/chitosan microparticles were prepared by ionotropic gelation and characterized for their size, shape, weight, drug entrapment efficiency, mucoadhesion and swelling behavior. The effect of cross-linking pH, cross-linking time and chitosan concentration on progesterone release were also studied. Spherical microparticles having a diameter of 580–720 µm were obtained. Drug entrapment efficiency of ∼75–100% was obtained depending on the microparticle composition. Microparticle mucoadhesive properties were dependent on the pectin concentration, as well as the cross-linking pH. Progesterone release in simulated gastric fluids was minimal (3–9%), followed by burst release at pH 6.8 and a sustained phase at pH 7.4. The in vivo study revealed that the microparticles significantly increased progesterone residence time in the plasma and increased its relative bioavailability to ∼168%, compared to the drug alone. This study confirms the potential of Zn-pectinate/chitosan microparticles as a colon-specific drug delivery system able to enhance the oral bioavailability of progesterone or similar drugs.

Progestogen safety: implications for meta‐analysis

The meta-analysis by Sotiriadis et al.1 regarding progestogen safety is a very informative, much appreciated synthesis of trial data. The findings validate similar conclusions for efficacy by Romero et al., with reduction of respiratory distress syndrome (RDS) after exposure to vaginal progesterone for a short cervix and, supporting prior observations2, 3, quantify statistically significant harms related to exposure to synthetic 17-hydroxyprogesterone caproate (17-OHPC) in multiple gestations. The Food and Drug Administration (FDA) in the USA dealt with the safety of different progestogens in pregnancy in 1999 when addressing teratogenicity and opined that it is ‘… inappropriate to consider these drugs a single class…’, thereby suggesting these agents should be interrogated individually for safety assessments4. This approach appears optimal for current safety concerns as differing molecular structures, pharmacokinetics and pharmacodynamics of the progestogens utilized for preterm birth prevention have been demonstrated. There is ample evidence documenting that 17-OHPC is not progesterone or a prodrug of any natural progestogen and that the interaction with progesterone receptors differs between these drugs5, 6. 17-OHPC appears to act as a partial agonist for these receptors not a full agonist for particular responses7. When discussing harm related to any intervention, an essential consideration is biologic plausibility for the mechanism8. Sotiriadis et al.1 opt not to present an assessment for biologic plausibility of harm related to exposure to these agents. Their investigation suggested that this class of drugs was associated with perinatal death, RDS and composite adverse outcome in multiple gestations. However, devising a cogent argument for harm related to supplemental administration of natural progesterone to explain these outcomes is exceedingly difficult. The placental production of progesterone differs markedly during gestation, allowing human pregnancy itself to act as an informative setting for safety/toxicity. For example, if the progesterone bioavailability resulting from placental production at term or near term in a singleton or multiple gestation alone is considered safe and if this bioavailability exceeds combined placental and supplemental progesterone exposure in the midtrimester, how can dosing this natural hormone be considered harmful? Also, the apparent lack of a harmful effect related to greater bioavailability of natural progesterone at any particular gestational age in cases of higher order multiple compared with twin compared with singleton pregnancies raises additional questions regarding biologic plausibility for harm. In their meta-analysis, Sotiriadis et al.1 found that when progestogens were analyzed individually, harm was not identified for each agent and was only found related to the synthetic drug in multiple gestations. In support, to date, no Phase III study in singleton or multiple pregnancies has reported a statistically significant association for harm related to natural progesterone exposure. The authors may wish to propose considerations for biologic plausibility related to their findings of harm in multiple gestations or suggest limitations for this type of analysis. Given observations documenting a possible benefit for natural progesterone therapy from Phase III trials enrolling twins9, 10 (Table 1), safety analyses of these compounds as a class rather than as individual drugs may cast too dark a shadow on this therapeutic strategy, perhaps unnecessarily limiting investigation into populations of multiple pregnancies that could derive some benefit, and may unnecessarily force us to relive history. In summary, progestogen safety should include a consideration of biologic plausibility for mechanism of harm when concerns are identified. The analysis should optimally be based on the individual agent rather than the class of drug. Such a strategy will allow obstetricians to fully explore the capabilities of supplemental progesterone to enhance the function of the cervix, decidua, fetal membranes or myometrium in certain vulnerable populations to improve pregnancy outcomes. (1) J. M. O'Brien was involved in studies of progesterone gel treatment for preterm birth prevention sponsored by a maker of progesterone gel. (2) J. M. O'Brien serves on advisory boards and as a consultant for Watson Pharmaceuticals, a company with a financial interest in marketing vaginal progesterone gel for preterm birth prevention. (3) J. M. O'Brien and others are listed in a patent on the use of progesterone compounds to prevent preterm birth. (US Patent Number 7,884,093: Progesterone for the Treatment and Prevention of Spontaneous Preterm Birth). J. M. O'Brien*, * Division of Maternal Fetal Medicine, University of Kentucky, 800 Rose Street, Lexington, KY, USA

IL1α and IL4 signalling in human ovarian surface epithelial cells

The human ovarian surface epithelium (hOSE) is a mesothelial layer that surrounds the ovary and undergoes injury and repair cycles after ovulation-associated inflammation. We previously showed that IL4 is a key regulator of progesterone bioavailability during post-ovulatory hOSE repair as it differentially up-regulated 3β-HSD1 and 3β-HSD2 mRNA transcripts and total 3β-hydroxysteroid dehydrogenase activity whereas it inhibited androgen receptor (AR) expression. We now show that the pro-inflammatory effect of IL1α on 3β-HSD1 expression is mediated by nuclear factor-κB (NF-κB), whereas its anti-inflammatory action on 3β-HSD2 expression is exerted via p38 mitogen-activated protein kinase (MAPK), phosphatidylinositol 3-kinase (PI3K) and NF-κB signalling pathways. The anti-inflammatory IL4 effects on 3β-HSD1 and 3β-HSD2 mRNA expression are mediated through STAT6 and PI3K signalling networks. IL4 effects on AR and 3β-HSD2 expression involve the p38 MAPK pathway. We also document that IL4 up-regulates lysyl oxidase (LOX) mRNA transcripts, a key gene for extracellular matrix (ECM) deposition and inhibits IL1α-induced expression of cyclooxygenase-2 (COX-2) mRNA, a gene involved in breakdown of ECM, showing a further role in post-ovulatory wound healing. We conclude that IL1α and IL4 actions in the post-ovulatory wound healing of hOSE cells are mediated by different signalling transduction pathways. The p38 MAPK signalling pathway may have possible therapeutic benefit in inflammation-associated disorders of the ovary, including cancer.

Effect of cytochrome P450 and aldo-keto reductase inhibitors on progesterone inactivation in primary bovine hepatic cell cultures

Progesterone is required for maintenance of pregnancy, and peripheral concentrations of progesterone are affected by both production and inactivation. Hepatic cytochrome P450 (EC 1.14.14.1) and aldo-keto reductase (EC 1.1.1.145–151) enzymes play a pivotal role in the first step of steroid inactivation, which involves the addition of hydroxyl groups to various sites of the cyclopentanoperhydrophenanthrene nucleus. The current objective was to discern the proportional involvement of hepatic progesterone inactivating enzymes on progesterone decay using specific enzyme inhibitors. Ticlopidine, diltiazem, curcumin, dicumarol, and naproxen were used because of their selective inhibition of cytochrome P450s, aldo-keto reductases, and glucuronosyltransferases. Liver biopsies were collected from 6 lactating Holstein dairy cows, and cells were dissociated using a nonperfusion technique. Confluent wells were preincubated for 4h with enzyme inhibitor and then challenged with progesterone for 1h. Cell viability was unaffected by inhibitor treatment and averaged 84±1%. In control wells, 50% of the progesterone had been inactivated after a 1-h challenge with 5ng/mL of progesterone. Preincubation with curcumin, ticlopidine, or naproxen caused the greatest reduction in progesterone inactivation compared with controls and averaged 77, 39, or 37%, respectively. Hydroxylation of 4-nitrophenol to 4-nitrocatechol in intact cells was inhibited by approximately 65% after treatment with curcumin or ticlopidine. Glucuronidation of phenol red or 4-nitrocatechol in intact cells was inhibited by treatment with curcumin, dicumarol, or naproxen. In cytoplasmic preparations, aldo-keto reductase 1C activity was inhibited by curcumin, dicumarol, or naproxen treatment. Microsomal cytochrome P450 2C activity was inhibited by treatment with curcumin or ticlopidine, whereas cytochrome P450 3A activity was inhibited by treatment with curcumin or diltiazem. The contribution of cytochrome P450 2C and cytochrome P450 3A enzymes to progesterone inactivation in bovine hepatic cell cultures was 40 and 15%, respectively. Depending on the inhibitor used, it would appear that the aldo-keto reductase enzymes contribute approximately 40% to the observed progesterone inactivation, although a portion of this inactivation may be attributed to the loss of glucuronosyltransferase activity. Future work focusing on decreasing the activity of these enzymes in vivo could lead to an increase in the bioavailability of progesterone.

Carbopol-based gels for nasal delivery of progesterone.

The purpose of this study was to investigate the nasal absorption of progesterone from carbopol-based nasal gels in rabbits. Progesterone nasal gels were prepared by dispersing carbopol 974 (1%, 1.5%, and 2%) in distilled water followed by addition of progesterone/progesterone-beta cyclodextrin complex dissolved in propylene glycol then neutralization. The potential use of beta cyclodextrin (CD) as nasal absorption enhancer by simple addition, as a physical mixture and as a complex with progesterone was investigated. The absolute bioavailability of progesterone from nasal gels in rabbits was studied by estimating the serum progesterone level by competitive solid-phase enzyme immunoassay in comparison to intravenous injection. The carbopol gel formulations produced a significant increase in bioavailability. CD complex promotes the nasal absorption of progesterone from carbopol gels as compared with gels where the CD is added by simple addition and gels which do not contain CD. This method of addition of CD as an inclusion complex in the gels could be considered as a preferred platform in nasal drug administration.

Use of a Dynamic in Vitro Lipolysis Model to Rationalize Oral Formulation Development for Poor Water Soluble Drugs: Correlation with in Vivo Data and the Relationship to Intra-Enterocyte Processes in Rats

To examine the correlation between the in vitro solubilization process of lipophilic compounds from different lipid solutions and the corresponding in vivo oral bioavailability data. In particular, to assess the influence of intra-enterocyte processes (metabolism and lymphatic absorption) on this correlation. The dissolution of progesterone and vitamin D3 in long (LCT), medium (MCT) and short (SCT) chain triglyceride solutions were tested in a dynamic in vitro lipolysis model. The absolute oral bioavailability of the drugs from the tested formulations was investigated in rats. Vitamin D3 bioavailability was also examined following lymphatic transport blockage induced by cycloheximide (3 mg/kg). The dynamic in vitro lipolysis experiments indicated a rank order of MCT > LCT > SCT for both progesterone and vitamin D3. The bioavailability of progesterone correlated with the in vitro data, despite its significant pre-systemic metabolism. For vitamin D3, an in vivo performance rank order of LCT > MCT > SCT was obtained. However, when the lymphatic transport was blocked the bioavailability of vitamin D3 correlated with in vitro data. The in vitro lipolysis model is useful for optimization of oral lipid formulations even in the case of pre-systemic metabolism in the gut. However, when lymphatic transport is a significant route of absorption, the in vitro lipolysis data may not be predictive for actual in vivo absorption.

Solubility and Dissolution Rate of Progesterone-Cyclodextrin-Polymer Systems

ABSTRACTThis contribution focused on the solubility improvement of the poorly water-soluble steroid hormone progesterone which, in its natural state, presents a reduced oral bioavailability. In the first part of this study, two simple, reproducible methods that were candidates for use in the preparation of inclusion complexes with cyclodextrins were investigated. Solubility capacities of the progesterone complex with hydroxypropyl-β-CD (HPβ-CD), hydoxypropyl-γ-CD (HPγ-CD), permethyl-β-CD (PMβ-CD), and sulfobutylether-β-CD (SBEβ-CD), prepared by the freeze-drying and precipitation methods, were evaluated by Higuchi phase solubility studies. The results showed that HPβ-CD and PMβ-CD were the most efficient among the four cyclodextrins for the solubilization of progesterone, with the highest apparent stability constants. Therefore, dissolution studies were conducted on these latest progesterone/cyclodextrin complexes and physical mixtures. Two additional natural cyclodextrins, β-CD and γ-CD, were taken as references. Hence, the influence of more highly soluble derivatives of β‐CD (HPβ-CD, PMβ-CD) on the progesterone dissolution rate, in comparison to pristine β-CD, alongside an increase in the cavity width for γ-CD versus β-CD, were investigated. The dissolution kinetics of progesterone dissolved from HPβ-CD, PMβ-CD, and γ-CD revealed higher constant rates in comparison to β-CD. Therefore, the aim of the second part of this study was to investigate the possibility of improving the dissolution rate of progesterone/β-CD binary systems upon formation of ternary complexes with the hydrophilic polymer, PEG 6000, as β-CD had the smallest progesterone solubility and dissolution capacity among the four cyclodextrins studied (β‐CD, HPβ-CD, HPγ-CD and PMβ-CD). The results indicated that dissolution constant rates were considerably enhanced for the 5% and 10% progesterone/β-CD complexes in PEG 6000.The interaction of progesterone with the cyclodextrins of interest on the form of the binary physical mixtures, complexes, or ternary complexes were investigated by differential scanning calorimetry (DSC) and Fourier transformed-infrared spectroscopy (FT-IR). The results proved that progesterone was diffused into the cyclodextrin cavity, replacing the water molecules and, in case of ternary systems, that the progesterone β-cyclodextrin was well dispersed into PEG, thus improving progesterone bioavailability for subsequent oral delivery in the same way as derivatized cyclodextrins. The present work proves that ternary complexes are promising systems for drug encapsulation.

Mammary steroid metabolizing enzymes in relation to hyperplasia and tumorigenesis in the dog

Progesterone and estradiol play a crucial role in the control of mammary gland proliferation and tumour formation in the dog. However, little is known whether steroid metabolizing enzymes are present within the canine mammary gland that may play a modulating role in the bioavailability of progesterone and estrogen. In this study we investigated the expression of the steroid metabolizing enzymes 5α-reductase (type I and type II) and aromatase in relation to hyperplasia or tumorigenesis in the canine mammary tissue. The relative mRNA concentrations were examined by a semi-quantitative reverse-transcriptase PCR analysis (RT-PCR). In addition the affinity of dihydroprogesterone (5α-reduced metabolite of progesterone) for canine progesterone receptors was investigated. Quantification of the RT-PCR products revealed that in mammary tumours a significantly higher expression of aromatase is present in comparison to normal mammary tissue. Furthermore, significant decrease in expression of both aromatase and 5α-reductase type II enzymes was found in hyperplasic mammary tissue compared to tumours. The changes in expression of type II 5α-reductase and aromatase were highly correlated. 5α-Reduction of progesterone to dihydroprogesterone resulted in a six-fold less affinity for the canine progesterone receptor. It is concluded that hyperplasia is associated with a decreased expression of type II 5α-reductase and aromatase enzymes, whereas in tumours the opposite situation is found.

Progesterone freeze-dried systems in sublingual dosage form

Various polymer matrices were tested to enhance progesterone bioavailability as part of an emergency therapy. Among the different polymers used, i.e. poly( N-vinylpyrrolidone) (PVP), poly(ethylene oxide) (PEO), Dextran T70 and partially saponified poly(methyl glyoxylate) (PMGz), the latter gives the fastest solubilization rate. The best results were obtained with the lyophilized dosage form instead of a simple mixture of the drug within the polymer matrix. A nearly instantaneous solubilization was observed with PMGz copolymers bearing 10–40% of carboxylic groups and containing up to 20% of the drug. The instantaneous solubilization of the PMGz matrix is due to the hydrophilic moieties, and the presence of hydrophobic zones in PMGz promotes good affinity with the drug and optimal dispersion into the matrix.

Positively Charged Self-Emulsifying Oil Formulation for Improving Oral Bioavailability of Progesterone

A self-emulsifying oil formulation (SEOF) comprised of Tween 80, benzyl alcohol (BA), ethyl oleate (EO), and oleylamine (OA), able to produce positively charged submicron emulsions upon aqueous or buffer dilution, was developed and characterized. The positive charge of the formulation was attributed to the localization of the cationic lipid, OA, at the oil/water interface of the diluted SEOFs. Binary phase diagram analysis of the basic lipophilic system showed that the SEOF elicited progressive inverse phase behavior under continuous aqueous phase dilution. At infinite dilution fine submicron o/w emulsions were formed only when BA concentrations did not exceed 50% in the formulation. The self-emulsification process was not markedly affected by the variation in pH over the entire physiological range. The neurotoxic effects observed in acute toxicity studies with the concentrated emulsion containing 3% BA obtained from the dilution of the SEOF vehicle were attributed to the BA since a simple aqueous solution at the same BA dose caused similar adverse effects. However, no toxic effects were noticed when the dose administered was 30 times the potential dose that could probably be administered to humans. Comparative oral bioavailability studies in young female rats using several different liquid dosage forms of progesterone indicated that of those studied, only the positively charged SEOF could be considered a potential effective dosage form for oral administration of progesterone since it elicited the highest and most satisfactory absorption profile.

Human endometrial maturation is markedly improved after luteal supplementation of gonadotrophin-releasing hormone analogue/human menopausal gonadotrophin stimulated cycles

In human cycles stimulated for ovulation with gonadotrophin-releasing hormone (GnRH) agonists and human menopausal gonadotrophin (HMG), a luteal phase defect has been described. To evaluate the influence on the endometrium, endometrial development in GnRH agonist/HMG stimulated cycles was assessed in cycles with and without luteal phase supplementation. Endometrial histological maturation, ultrastructure and oestrogen receptor (ER) and progesterone receptor (PR) status were analysed in the mid-luteal phase. Serum concentrations of oestradiol and progesterone were measured daily from days 1-5 of the luteal phase. Supplementation of the luteal phase was achieved with either human chorionic gonadotrophin or natural progesterone, administered intramuscularly or intravaginally. In non-supplemented cycles all endometrial features were consistent with an impaired progesterone bioavailability. After supplementation of the luteal phase, fewer signs of luteal phase deficiency were visible, especially with the intravaginal route of progesterone administration. We concluded that the endometrial parameters confirm the need for luteal support in GnRH agonist/HMG stimulated cycles.