The effect of food composition on serum testosterone levels after oral administration of Andriol Testocaps.

OBJECTIVE: Andriol Testocaps is a new oral formulation of testosterone undecanoate (TU) for treatment of hypogonadism. As TU is taken up by the intestinal lymphatic system, both the presence and the composition of food influence the absorption. The aim of this study was to investigate the effect of food composition on the pharmacokinetics of oral TU. DESIGN: An open-label, single-centre, four-way crossover study. With a washout period of 6-7 days, 80 mg TU was administered in the morning 5 min after consuming each of four different meals in a randomized order (A: 230 kcal, 0.6 g lipid; B: 220 kcal, 5 g lipid; C: 474 kcal, 19 g lipid; D: 837 kcal, 44 g lipid). PATIENTS: Twenty-four postmenopausal volunteers. MEASUREMENTS: Serial blood samples were collected until 24 h after dosing to determine testosterone and dihydrotestosterone (DHT) by gas chromatography-mass spectroscopy (GC-MS). RESULTS: The bioavailability of testosterone after a low-calorie meal containing 0.6 g lipid or 5 g lipid was relatively low, the area under the concentration-time curve (AUC(0-tlast)) for testosterone being 30.7 and 43.5 nmol h/l, respectively. The bioavailability of testosterone after a meal containing 19 g lipid was considerably higher (AUC(0-tlast) = 146 nmol h/l), whereas increasing the lipid content to 44 g lipid did not further increase the bioavailability of testosterone (AUC(0-tlast) = 154 nmol h/l). CONCLUSION: Approximately 19 g of lipid per meal efficiently increases absorption of testosterone from oral TU. Therefore, coadministration with a normal rather than a fatty meal is sufficient to increase serum testosterone levels when using oral TU.

Pharmacokinetic evaluation of three different intramuscular doses of nandrolone decanoate: analysis of serum and urine samples in healthy men.

The pharmacokinetics of nandrolone in serum and urine were investigated in healthy young men after a single im injection of 50 mg (n = 20), 100 mg (n = 17), or 150 mg (n = 17) nandrolone decanoate. Blood samples were collected before treatment and for up to 32 d after dosing. In addition, in the 50- and 150-mg groups, 24-h urine samples were collected before treatment and on d 1, 7, and 33 after treatment; in the 150-mg group, additional samples were collected after 3 and 6 months. Serum concentrations and the area under the curve of nandrolone increased proportionally with the dose administered. The peak serum concentration ranged from 2.14 ng/ml in the 50-mg group to 4.26 ng/ml in the 100-mg group and 5.16 ng/ml in the 150-mg group. The peak serum concentration was reached after 30 h (50 and 100 mg) and 72 h (150 mg), whereas the terminal half-life was 7-12 d. In urine, pretreatment concentrations of 19-norandrosterone (19-NA) and/or 19-noretiocholanolone (19-NE) were detected in five of 37 subjects (14%). In the 50-mg group, 19-NA and/or 19-NE could be detected at least until 33 d after injection in 16 of 17 subjects (94%). In the 150-mg group, who were presumed to have not previously used nandrolone, nandrolone metabolites could be detected for up to 6 months in eight of 12 subjects (67%) for 19-NE and in 10 of 12 subjects (83%) for 19-NA.

Severity of murine collagen-induced arthritis correlates with increased CYP7B activity: enhancement of dehydroepiandrosterone metabolism by interleukin-1beta.

OBJECTIVE: The endogenous steroid dehydroepiandrosterone (DHEA) has been reported to play a role in rheumatoid arthritis (RA). DHEA is metabolized by the P450 enzyme CYP7B into 7alpha-OH-DHEA, which has immunostimulating properties. This study was undertaken to investigate the putative role of CYP7B in arthritis using murine collagen-induced arthritis (CIA), an interleukin-1beta (IL-1beta)-dependent model. METHODS: DBA/1J mice were immunized and administered a booster with type II collagen. The presence of 7alpha-OH-DHEA was determined in both arthritic and nonarthritic joints and the serum of CIA mice by radioimmunoassay. CYP7B messenger RNA (mRNA) expression was analyzed in synovial biopsy samples, and in fibroblast-like synoviocytes (FLS) isolated from these synovial biopsy samples, by reverse transcriptase-polymerase chain reaction (RT-PCR). In addition, the regulatory role of IL-1beta on CYP7B activity in FLS was determined using RT-PCR, Western blotting, and high-performance liquid chromatography. RESULTS: In knee joint synovial biopsy samples from arthritic mice, 7alpha-OH-DHEA levels were 5-fold higher than in nonarthritic mice. Elevated levels of 7alpha-OH-DHEA were accompanied by an increase in CYP7B mRNA expression and were positively correlated with disease severity. In serum, no differences in 7alpha-OH-DHEA levels were observed between arthritic and nonarthritic mice. Incubation of FLS with IL-1beta resulted in a dose-dependent increase in 7alpha-OH-DHEA formation. In addition, IL-1beta enhanced CYP7B mRNA and CYP7B protein levels in FLS. CONCLUSION: Disease progression in CIA is correlated with enhanced CYP7B activity, which leads to locally enhanced 7alpha-OH-DHEA levels. Elevated IL-1beta levels within the arthritic joint may regulate this increase in CYP7B activity.

Pharmacokinetic study in women of three different doses of a new formulation of oral testosterone undecanoate, Andriol Testocaps.

STUDY OBJECTIVE: To assess the pharmacokinetic parameters of testosterone undecanoate after administration of a new oral formulation, Andriol Testocaps. DESIGN: Randomized, open-label, group-comparative, parallel-design, dose-proportionality study. SETTING: Clinical pharmacology unit. SUBJECTS: Forty-five healthy women without childbearing potential. INTERVENTION: Two oral doses each of testosterone undecanoate 20, 40, or 80 mg were administered with meals, separated by a 12-hour dosing interval. MEASUREMENTS AND MAIN RESULTS: Serum concentrations of testosterone undecanoate were assayed by liquid chromatography with mass spectrometric detection, and of testosterone and 5alpha-dihydrotestosterone (DHT) by gas chromatography with mass spectrometric detection. Pharmacokinetic parameters were calculated using standard methods. Statistical analysis of dose proportionality was performed on the log(e)-transforms of dose-normalized area under the serum concentration-time curve from 0-12 hours (AUC(0-12)) and from zero to the sampling time of the last measurable concentration after administration of the second dose (AUC(0-t(last)), and maximum serum concentration after the first dose (C(max)l). For testosterone undecanoate, testosterone, and DHT, dose-related increases in plasma concentrations were found with increasing doses of testosterone undecanoate; maximum concentrations were found 5-7 hours after administration. Using baseline-corrected testosterone values, dose proportionality for testosterone was found for AUC(0-12), AUC(0-t)(last), and C(max)(l). After higher doses, plasma levels of testosterone undecanoate were higher and plasma levels of DHT lower than could be expected assuming dose proportionality. CONCLUSION: Serum testosterone levels are dose proportional after oral administration of two doses of a new formulation of testosterone undecanoate 20, 40, and 80 mg, Andriol Testocaps.

Important effect of food on the bioavailability of oral testosterone undecanoate.

STUDY OBJECTIVE: To assess the effects of food on the bioavailability of testosterone undecanoate, testosterone, and 5alpha-dihydrotestosterone (DHT) after administration of a new oral testosterone undecanoate formulation, Andriol Testocaps. DESIGN: Randomized, open-label, crossover study with a 1-week washout period. SETTING: Clinical pharmacology unit. SUBJECTS: Sixteen healthy postmenopausal women. INTERVENTION: Single oral doses of testosterone undecanoate 80 mg were administered either during a fasting period or after consumption of a standardized continental breakfast. MEASUREMENTS AND MAIN RESULTS: Serum concentrations of testosterone undecanoate were assayed by liquid chromatography with mass spectrometry detection; testosterone and DHT were assayed by gas chromatography with mass spectrometry detection. Serum concentrations of testosterone, testosterone undecanoate, and DHT were low to negligible when testosterone undecanoate was administered to subjects in a fasting state; these values were significantly higher when the test drug was coadministered with food. For testosterone, the maximum serum concentration and area under the plasma concentration-time curve were 0.67 ng/ml and 5.37 ng x hr/ml, respectively, in the fasting state, versus 10.7 ng/ml and 56.4 ng x hr/ml, respectively, in the fed state. The same parameters were also significantly higher for testosterone undecanoate and DHT in the fed versus fasting subjects. CONCLUSION: Food increases the bioavailability of testosterone undecanoate, testosterone, and DHT. For proper absorption, Andriol Testocaps must be taken with meals.