Effect of pancreatico-biliary secretions and GI transit time on the absorption and pharmacokinetic profile of ranitidine in humans

PURPOSE: Ranitidine plasma concentration vs. time profiles and the extent of ranitidine absorption were examined in the presence and absence of pancreatico-biliary secretions in order to elucidate factors which may contribute to secondary peaks after oral ranitidine administration. METHODS: Ranitidine solution (300 mg) was administered to 4 fasting healthy subjects via an indwelling small-bore oroenteric tube located approximately 16 cm distal to the pylorus On 3 consecutive days, subjects randomly received ranitidine alone (control), ranitidine 10 min after 0.04 micrograms/kg IV cholecystokinin (CCK) sufficient to cause gall bladder emptying into the duodenum, and ranitidine 30 min after inflation of an occlusive duodenal balloon located approximately 10 cm distal to the pylorus to prevent pancreatico-biliary secretions from reaching the dosing port or beyond. Small bowel transit time (SBTT; min) was measured by breath H2. Serial blood samples, obtained over 12 hours in each treatment, were analyzed by HPLC to determine ranitidine AUC0-12 (ng*h/mL), as well as Cmax (ng/mL) and Tmax (min) of the first and subsequent peaks, if subsequent peaks were observed. RESULTS: Ranitidine AUC0-12 and Cmax were not altered significantly by treatments; treatment effects on SBTT varied. Secondary peaks were observed in subjects #1 and #3 during the control treatment and subjects #2 and #4 during the CCk treatment. No secondary peaks were observed in any subject during the balloon treatment, and Tmax1 was delayed. CONCLUSIONS: Results support the hypothesis that pancreatico-biliary secretions (present in the intestinal lumen during control or CCK treatment) and gastrointestinal transit time may influence the occurrence of secondary peaks in ranitidine concentration vs. time profiles.     

Ranitidine reverses gallamine paralysis in rats

The effect of ranitidine on gallamine-induced depression of twitch tension was evaluated in urethane-anaesthetized and mechanically ventilated male Sprague-Dawley rats. Gallamine was administered as an intravenous (IV) bolus and constant rate infusion in 15 rats to maintain 89 +/- 7% (SE) depression of twitch tension induced by electrical stimulation of a sciatic nerve. Ranitidine, IV at either 0.5, 1, 2.5, 5, or 10 mg/kg, was then administered into groups of three rats. Ranitidine produced an immediate dose- and serum concentration-dependent reversal (antagonism) of the twitch tension depression induced with gallamine. The reversal was observed within approximately 30 s and was maintained for 3-26 (12 +/- 2) min. The dose of ranitidine that produced 50% reversal was 2.9 +/- 0.1 mg/kg, and this reversal was associated with a ranitidine serum concentration of 5.2 +/- 0.3 micrograms/mL. Ranitidine administered alone (and without gallamine) did not alter twitch tension at either 2.5 or 20 mg/kg. In addition, ranitidine did not alter either the gallamine neuromuscular blocking concentration in serum or the serum clearance of gallamine. Ranitidine reverses the neuromuscular action of gallamine, and this effect of ranitidine is not due to a pharmacokinetic interaction between ranitidine and gallamine.     

Stereoselective HPLC bioanalysis of atenolol enantiomers in plasma: application to a comparative human pharmacokinetic study

An enantioselective HPLC bioassay has been developed relying on extraction of (R)- and (S)-atenolol from alkalinized plasma or serum (pH > 12) into dichloromethane containing 5% (v/v) 1-butanol followed by an achiral derivatization of the drug with phosgene leading to (R)- and (S)-oxazolidine-2-one derivatives. Under these conditions there was quantitative conversion of the acetamido group to the corresponding nitrile. These stable derivatives were separated on a (R,R)-diaminocyclohexane-dinitrobenzoyl chiral stationary phase [(R,R)-DACH-DNB] using dichloromethane/methanol 98/2 as mobile phase. Determination limits of 0.5 ng for (R)- and 0.6 ng for (S)-atenolol could be achieved using fluorimetric detection. The assay was applied to a human pharmacokinetic study which was performed in a randomized cross-over, double-blind fashion in 12 healthy volunteers, administering single oral doses of 100 mg (R,S)-, 50 mg (R)-, and 50 mg (S)-atenolol. AUC0-24 and Cmax values of (R)-atenolol were slightly but significant higher than those of (S)-atenolol. The R/S ratios were 1.09 for AUC(R)/AUC(S) and 1.03 for Cmax (R)/Cmax(S) (P < 0.01) respectively after administration of the racemic drug. However, there were no difference between AUC, Cmax, and t1/2 values of each enantiomer, whether they were administered as single enantiomers or in the form of its racemic mixture.     

Echocardiographic evaluation of left ventricular function in patients with chronic renal failure treated with intermittent peritoneal dialysis

As a result of preclinical data demonstrating the antitumour and antimetastatic efficiency of indomethacin in murine models, and the clinical observation of occasional tumour regression in patients with advanced melanoma treated with indomethacin together with ranitidine, a Phase II study was performed of prolonged administration of these two oral agents in combination. Seventeen patients were entered into the study and commenced on indomethacin 50 mg three times daily; the dose was escalated to a maximum of 75 mg three times daily in patients who tolerated the starting dose. Ranitidine was administered concurrently at a dose of 150 mg twice daily. One patient with uveal melanoma metastatic to the liver achieved a partial response, with slow shrinkage of a biopsy-proved liver metastasis (objective response rate 6 percent; 95 percent CI0-29). Another patient demonstrated a minor response in pelvic lymph nodes. The combination of indomethacin and ranitidine has negligible activity in advanced malignant melanoma; a response may require months to be achieved.     

Ranitidine controls nocturnal gastric acid breakthrough on omeprazole: a controlled study in normal subjects

BACKGROUND & AIMS: Proton pump inhibitors administered twice daily do not provide complete nocturnal acid suppression. Acid breakthrough, or decrease in intragastric pH to <4 for an hour or longer, occurs in three quarters of normal subjects and patients at night. We compared the effect of a third dose of omeprazole at bedtime with that of a dose of ranitidine at bedtime on residual nocturnal acid secretion in patients receiving omeprazole twice daily. METHODS: Twelve volunteers underwent overnight intragastric pH monitoring after 7 days of treatment with omeprazole, 20 mg twice daily, followed by different treatment supplements at bedtime: placebo; additional omeprazole, 20 mg; ranitidine, 150 mg; and ranitidine, 300 mg. RESULTS: Additional omeprazole at bedtime reduced the percentage of time with intragastric pH of <4 from 48% to 31% (P < 0.005) compared with omeprazole twice daily with placebo at bedtime. Ranitidine at bedtime reduced this parameter more, 5% with 150 mg and 6% with 300 mg (P <0.01 vs. omeprazole twice daily plus bedtime). Results for percentage of time with intragastric pH <3 were similar. Eleven subjects had acid breakthrough with placebo at bedtime; 7 with omeprazole at bedtime (P = NS); 4 with ranitidine, 150 mg at bedtime; and 3 with ranitidine, 300 mg at bedtime (P < 0. 05, ranitidine vs. placebo). CONCLUSIONS: Bedtime ranitidine is more effective than bedtime omeprazole on residual nocturnal acid secretion in patients receiving omeprazole twice daily. This finding suggests that fasting breakthrough nocturnal acid secretion in patients receiving omeprazole twice daily is most likely histamine related.     

Comparison of the effect of two dose schedules of oral omeprazole with oral ranitidine on gastric aspirate pH and volume in patients undergoing elective surgery

We have compared gastric aspirate pH and volume at induction of anaesthesia in 222 patients who had received either omeprazole or ranitidine before elective operations. Omeprazole was given orally either as 40 mg on the evening before and 40 mg on the morning of surgery or as 80 mg on the morning of surgery. Ranitidine 150 mg was given orally on the evening before surgery and 2 h before anaesthesia. Treatment success was defined as aspirate pH > or = 2.5 and volume < 25 ml at induction of anaesthesia. Treatment was successful in 84% (95% confidence interval (CI) 73-91%) of patients in the omeprazole 40 + 40 mg group, 84% (95% CI 73-91%) in the ranitidine group and 73% (95% CI 61-83%) in the omeprazole 80 mg group. There were no statistically significant differences between the groups. Twelve patients in the omeprazole 80 mg group had gastric pH < 2.5 and four had volume > 25 ml. Only three patients had a gastric pH < 2.5 in the omeprazole 40 + 40 mg group and none had volume > 25 ml, which compared well with the ranitidine group. Omeprazole, given as 40 mg in the evening and 40 mg on the morning of operation, has a potential role for use in patients at risk for aspiration during general anaesthesia.     

Plasma, urinary and biliary residues in cattle following intramuscular injection of nortestosterone laurate

The synthetic androgen 19-nortestosterone (beta-NT) has been used illegally as a growth promoter in cattle production in the European Union. Elimination of beta-NT and its metabolites in plasma, urine and bile was studied in three cattle with cannulated gallbladders following intramuscular injection at a single site of 500 mg of the laurate ester (NTL) containing 300.5 mg beta-NT. Using enzyme immunoassay quantification, plasma Cmax of free beta-NT was 0.5 +/- 0.15 microgram/L (mean +/- SEM). Concentrations of free beta-NT in plasma were consistently greater than the assay limit of quantification (0.12 microgram/L) for 32.7 +/- 13.42 days. Mean residence time for the beta-NT in plasma was 68.5 +/- 20.75 days. Following sample preparation by immunoaffinity chromatography, high-resolution GC-MS was used to quantify beta-NT and alpha-NT in urine and bile. beta-NT was detected irregularly in urine from two of the three animals post injection. The principal metabolite present in the urine, alpha-NT, was detected for 160.3 +/- 22.67 days post injection. Cmax for alpha-NT in urine was 13.7 +/- 5.14 micrograms/L. Mean urinary AUC0-183 days for alpha-NT was 845.7 +/- 400.90 (microgram h)/L. In bile, alpha-NT was the only metabolite detected for 174.3 +/- 8.67 days post treatment. Cmax for alpha-NT in bile was 40.8 +/- 12.70 micrograms/L and mean biliary AUC0-183 days for alpha-NT was 1982.6 +/- 373.81 (microgram h)/L. Concentrations of alpha-NT in bile samples were greater than those in urine samples taken at the same time. The mean ratio of biliary:urinary AUC0-183 days was 3.0 +/- 0.72. It is concluded that bile is a superior fluid for detection of alpha-NT following injection of NTL, owing to the longer period during which residues may be detected after administration.     

Comparative bioavailability of two atenolol tablet formulations in healthy male volunteers after a single dose administration

The bioavailability of 2 atenolol tablet formulations (Angipress from Laboratórios Biosintética, and Atenol from Wellcome ICI Laboratory, Brazil) were compared in 18 healthy male volunteers who received a single 50 mg dose of each atenolol formulation. The study was conducted following an open randomized 2-period crossover design with a 14-day washout interval between doses. Plasma samples were obtained over a 24-hour interval and atenolol concentrations were determined by HPLC with fluorimetric detection. From the plasma atenolol concentration vs time curves the following pharmacokinetic parameters were obtained: AUC(zero-24) (area under the concentration vs time curves from 0-24 h), ke (terminal elimination constant), t1/2 (terminal first order elimination half-life), AUC (area under the concentration vs time curves extrapolated to infinity), Cmax (maximum achieved concentration), Tmax (time to achieve Cmax) and Cmax/AUC. All these variables were analyzed using both parametric and nonparametric statistics. Geometric mean Angipress/Atenol individual percent ratios were 99.6% for AUC(zero-24), 99.7% for AUC, 98.0% for Cmax, 102.8% for t1/2, 97.2% for ke and 97.8% for Cmax/AUC, with all their 90% confidence intervals within the bioequivalence range 80-125%, thus showing similar patterns of absorption and disposition. Arithmetic mean for individual Tmax differences was 0.8 h, and the 90% confidence interval did not include the zero value. Based on these results and in accordance with the European Union and the US Food and Drug Administration bioequivalence requirements we conclude that both atenolol formulations are bioequivalent for both the extent and the rate of absorption.     

Enterohepatic circulation in man of a gamma-emitting bile-acid conjugate, 23-selena-25-homotaurocholic acid (SeHCAT)

A conjugated bile acid, 23-selena-25-homotaurocholic acid (SeHCAT), labeled with the gamma emitter Se-75, has been evaluated in man. Absorption and excretion were compared with that of simultaneously administered [23-14C]cholic acid. SeHCAT is absorbed quantitatively following oral administration, secreted into the bile at the same rate as cholic acid, reabsorbed from the small intestine, and resecreted. It is not absorbed when the terminal ileum has been excised or bypassed. SeHCAT is therefore the first of a new class of radiopharmaceuticals, namely, gamma-emitting tracers of the complete cycle of the enterohepatic circulation. Its use will simplify investigation of the functional state of the terminal ileum by eliminating the need to collect and process feces.     

Pharmacokinetics and tolerance of pantoprazole, a proton pump inhibitor after single and multiple oral doses in healthy Japanese volunteers

The pharmacokinetics and tolerance of pantoprazole were investigated after single (20, 40, 80, and 120 mg) and multiple (80 mg once a day for 7 days) oral administration as enteric-coated tablet formulation to healthy male Japanese volunteers. Pantoprazole was well tolerated with no serious adverse events at all doses. Pantoprazole was rapidly absorbed in the fasted state. The mean maximum concentration in serum (Cmax) ranged from 1.77-9.25 micrograms/ml for the 20-120 mg dose and the mean time to reach Cmax (tmax) ranged from 1.92-2.42 h. The half-life (t1/2) ranged from 0.74-1.16 h. A good linear correlation was found between the administered doses (20-120 mg) and the resulting area under the concentration-time curve (AUC) and Cmax with the correlation coefficients of 0.9088 and 0.9263, respectively. Within 24 h, pantoprazole was excreted into urine as the unchanged drug to a negligible extent. In the multiple dose study, 2 apparent poor metabolizers (PMs) of pantoprazole were observed. The means of Cmax, AUC and t1/2 for these 2 PMs were 1.6, 6.7, and 6.8 times higher than those of the extensive metabolizers (EMs). The pharmacokinetic parameters such as Cmax, AUC, and t1/2 after the 7th oral dose were not significantly different from those after the 1st dose both in the PMs and the EMs, which indicated that there was virtually no drug accumulation.     

Single- and multiple-dose pharmacokinetics of riluzole in white subjects

Riluzole is a novel neuroprotective agent that has been developed for the treatment of amyotrophic lateral sclerosis. A series of studies was undertaken to establish its pharmacokinetics on single- and multiple-dose administration in young white male volunteers. The mean absolute oral bioavailability of riluzole (50-mg tablet) was approximately 60%. Maximum plasma concentration (Cmax) and area under the concentration-time curve (AUC) values were linearly related to dose for the range studied. Cmax occurred at 1.0 hour to 1.5 hours after administration. Plasma elimination half-life appeared to be independent of dose. After repeated administration of 100 mg riluzole for 10 days, some intraindividual variability in bioavailability was seen. A high-fat meal significantly reduced the rate (tmax = 2 hours compared with 0.8 hours; Cmax = 216 ng.mL-1 compared to 387 ng.mL-1) and extent of absorption (AUC = 1,047 ng.hr.mL-1 versus 1,269 ng.hr.mL-1). With multiple-dose administration, riluzole showed dose-related absorption, although the terminal plasma half-life was prolonged slightly. Steady-state plasma concentrations were achieved within 5 days. Steady-state trough plasma concentrations were significantly higher with a 75-mg dose twice daily than with a 50-mg dose three times daily, although AUC values did not differ.     

Pharmacokinetics of a new reversible proton pump inhibitor, YH1885, after intravenous and oral administrations to rats and dogs: hepatic first-pass effect in rats

The pharmacokinetics of YH1885 were evaluated after intravenous (iv) and oral administrations of the drug to rats and dogs. The reason for the low extent of bioavailability (F) of YH1885 after oral administration of the drug to rats and the absorption of the drug from various rat gastrointestinal (GI) segments were also investigated. After iv administration of YH1885, 5-20 mg kg(-1), to rats, the pharmacokinetic parameters of YH1885 seem to be independent of the drug at the dose ranges studied. After oral administration of YH1885, 50-200 mg kg(-1), to rats, the area under the plasma concentration-time curve from time zero to 12 or 24 h (AUC(0-12 h) or AUC(0-24 h)) was proportional to the oral dose of the drug, 50-100 mg kg(-1), however, the AUC(0-24 h) value at 200 mg kg(-1) increased with less proportion to the dose increase (324, 689, and 815 microg x min mL(-1) for 50, 100, and 200 mg kg(-1), respectively) due to the poor water solubility of the drug. This was proved by the considerable increase in the percentages of the oral dose remaining in the entire GI tract as unchanged YH1885 at 24 h (11.8, 15.3, and 42.8% for 50, 100, and 200 mg kg(-1), respectively). The F value after oral administration of YH1885 to rats was relatively low; the value was approximately 40% at the oral dose of 50 and 100 mg kg(-1). The reason for the low F in rats was investigated. The liver showed the highest metabolic activity for YH1885 based on an in vitro rat tissue homogenate study; hence, the liver first-pass effect was estimated. The value of AUC after intraportal administration of the drug, 5 mg kg(-1), was approximately 70% (116 versus 163 microg x min mL(-1)) of that after iv administration of the drug, 5 mg kg(-1), to rats; the liver first-pass effect of YH1885 in rats was estimated to be approximately 30%. The total body clearance of YH1885 after iv administration of the drug, 5-20 mg kg(-1), to rats were considerably lower than the cardiac output of rats, indicating that the lung and/or heart first-pass effect of YH1885 could be negligible in rats. After oral administration of YH1885, 50 and 100 mg kg(-1), to rats, the F value was approximately 40%, and approximately 15% of the oral dose was recovered from the entire GI tract as unchanged YH1885 at 24 h, and 30% of the oral dose disappeared with the liver first-pass effect. Therefore, the remainder, approximately 15% of the oral dose, could have disappeared with the small intestine first-pass effect and/or degradation of the drug in the GI tract. YH1885 was absorbed from ileum, duodenum, and jejunum of rat, however, YH1885 was under the detection limit in plasma when the drug was instilled into the rat stomach and large intestine. After iv administration of YH1885, 5-20 mg kg(-1), to dogs, the pharmacokinetic parameters of YH1885 also seemed to be independent of the drug at the dose ranges studied. However, after oral administration of YH1885, 0.5 and 2 g per whole body weight, to dogs, the AUC(0-10 h) values were not significantly different (96.8 versus 98.2 microg x min mL(-1)) and this could be due to the poor water-solubility of the drug. YH1885 was not detected in the urine after both iv and oral administration of the drug to both rats and dogs.     

Clinical pharmacokinetics of mycophenolate mofetil

The pharmacokinetics of the immunosuppressant mycophenolate mofetil have been investigated in healthy volunteers and mainly in recipients of renal allografts. Following oral administration, mycophenolate mofetil was rapidly and completely absorbed, and underwent extensive presystemic de-esterification. Systemic plasma clearance of intravenous mycophenolate mofetil was around 10 L/min in healthy individuals, and plasma mycophenolate mofetil concentrations fell below the quantitation limit (0.4 mg/L) within 10 minutes of the cessation of infusion. Similar plasma mycophenolate mofetil concentrations were seen after intravenous administration in patients with severe renal or hepatic impairment, implying that the de-esterification process had not been substantially affected. Mycophenolic acid, the active immunosuppressant species, is glucuronidated to a stable phenolic glucuronide (MPAG) which is not pharmacologically active. Over 90% of the administered dose is eventually excreted in the urine, mostly as MPAG. The magnitude of the MPAG renal clearance indicates that active tubular secretion of MPAG must occur. At clinically relevant concentrations, mycophenolic acid and MPAG are about 97% and 82% bound to albumin, respectively. MPAG at high (but clinically realisable) concentrations reduced the plasma binding of mycophenolic acid. The mean maximum plasma mycophenolic acid concentration (Cmax) after a mycophenolate mofetil 1 g dose in healthy individuals was around 25 mg/L, occurred at 0.8 hours postdose, decayed with a mean apparent half-life (t1/2) of around 16 hours, and generated a mean total area under the plasma concentration-time curve (AUC infinity) of around 64 mg.h/L. Intra- and interindividual coefficients of variation for the AUC infinity of the drug were estimated to be 25% and 10%, respectively. Intravenous and oral administration of mycophenolate mofetil showed statistically equivalent MPA AUC infinity values in healthy individuals. Compared with mycophenolic acid, MPAG showed a roughly similar Cmax about 1 hour after mycophenolic acid Cmax, with a similar t1/2 and an AUC infinity about 5-fold larger than that for mycophenolic acid. Secondary mycophenolic acid peaks represent a significant enterohepatic cycling process. Since MPAG was the sole material excreted in bile, entrohepatic cycling must involve colonic bacterial deconjugation of MPAG. An oral cholestyramine interaction study showed that the mean contribution of entrohepatic cycling to the AUC infinity of mycophenolic acid was around 40% with a range of 10 to 60%. The pharmacokinetics of patients with renal transplants (after 3 months or more) compared with those of healthy individuals were similar after oral mycophenolate mofetil. Immediately post-transplant, the mean Cmax and AUC infinity of mycophenolic acid were 30 to 50% of those in the 3-month post-transplant patients. These parameters rose slowly over the 3-month interval. Slow metabolic changes, rather than poor absorption, seem responsible for this nonstationarity, since intravenous and oral administration of mycophenolate mofetil in the immediate post-transplant period generated comparable MPA AUC infinity values. Renal impairment had no major effect on the pharmacokinetic of mycophenolic acid after single doses of mycophenolate mofetil, but there was a progressive decrease in MPAG clearance as glomerular filtration rate (GFR) declined. Compared to individuals with a normal GFR, patients with severe renal impairment (GFR 1.5 L/h/1.73m2) showed 3-to 6-fold higher MPAG AUC values. In rental transplant recipients during acute renal impairment in the early post-transplant period, the plasma MPA concentrations were comparable to those in patients without renal failure, whereas plasma MPAG concentrations were 2- to 3-fold higher. Haemodialysis had no major effect on plasma mycophenolic acid or MPAG. Dosage adjustments appear to not be necessary either in renal impairment or during dialysis. (ABSTRACT TRUN     

Tolerability, safety and pharmacokinetics of single dose and multiple dosing of the selective D1 antagonist NNC 01-0687 in healthy subjects

Selective dopamine D1-receptor antagonists have been shown to exhibit similar effects in animal models for antipsychotic action as the selective D2 antagonists. NNC 01-0687, a benzazepine with selective and high affinity to the D1-receptor, was well tolerated by healthy subjects allocated to double blind, placebo controlled studies. Complaints of moderate restlessness and drowsiness were reported after administration of 25 mg NNC 01-0687, indicating the dose to be the maximum tolerated single dose. The highest multiple dose level of a daily dose of 45 mg NNC 01-0687 administered t.i.d. for 14 days was assessed as safe and well-tolerated with few reports of adverse events. Some alanine aminotransferase (ALT) elevations appeared in both treatment groups (active and placebo) and no evident influence of NNC 01-0687 on the liver function could be derived. No statistically significant or clinically relevant effects were observed in haematological parameters, urinalyses, blood pressure, heart rate, ECG or plasma levels of prolactin, cortisol or growth hormone. The plasma drug concentration curves indicated a fast absorption with tmax at 0.5-1 h and an apparent elimination half-life of 3-4 h. Both AUC and Cmax appeared to be linearly correlated to the dose, indicating linear pharmacokinetics. With similar Cmax and AUC on day 1 and day 10 no accumulation was observed. When administered just after lunch, the Cmax was reduced by 50-60% and the tmax increased to 3 h, but without change of AUC.     

A single and multiple dose bioavailability study with carbamazepine 400 mg retard tablets with reference to enzyme autoinduction and circadian time differences

Both single and multiple dose bioequivalence studies are required to assess the quality of modified release formulations of drugs. In bioequivalence studies of drugs with enzyme autoinducing properties such as carbamazepine (CBZ), the standard multiple dose study design must be modified to guarantee equivalence of drug elimination. This problem was considered with regard to carbamazepine 400 retard AWD (test) whose bioavailability relative to a listed reference (Tegretal 400 retard) was studied in 2 randomized, open, crossover studies both with 18 healthy volunteers of Caucasian origin (20-36 years, 61.5-92 kg, 172-195 cm). The single dose study was done with 400 mg CBZ. Serum concentration time profiles of CBZ and its active metabolite CBZ-10,11-epoxide were determined until 144 h after administration. The multiple dose study was performed with 400 mg CBZ b.i.d. for 15 days (first 2 days: 200 mg b.i.d.) followed by a 7-day study with the alternative investigational product. 24-hour serum concentration time profiles of CBZ and its metabolite were measured on days 15 and 22 of the study. The quantitative drug analysis was done with an HPLC method the quality of which fulfilled the requirements of bioequivalence studies. Test was considered bioequivalent to reference with regard to the extent of absorption, if the 90% confidence intervals of the AUC0-infinity ratio (single dose) and AUC0-24h ratio (multiple dose) were within the range of 0.80-1.25, and with regard to rate of absorption if the 90% confidence intervals of the Cmax/AUC ratio (single dose) or AUCF0-24h ratio were within 0.70-1.43. The point estimators (90% confidence limits) of the AUC ratio (test/reference) of CBZ were 0.979 (0.94, 1.02) for the single and 1.01 (0.947, 1.076) for the multiple dose comparison. The point estimator (90% confidence limits) of the Cmax/AUC ratio was 0.989 (0.959, 1.020) and of the AUCF0-24h ratio 1.066 (0.937, 1.212). There were no circadian time differences in any pharmacokinetic parameter. In conclusion: Carbamazepine 400 retard AWD tablets were bioequivalent to reference with regard to extent and rate of absorption after both single and multiple dose administration.     

The influence of chronic administration of calcium carbonate on the bioavailability of oral ciprofloxacin

Six healthy male volunteers participated in a two-period, two-treatment study to determine the effect of chronic calcium carbonate administration on ciprofloxacin bioavailability. There was a mean reduction of 40% in Cmax and 43% in AUC when calcium carbonate was administered with ciprofloxacin, compared with ciprofloxacin alone (P < 0.05). There were no changes in either half-life or tmax. It is therefore recommended that patients being treated with ciprofloxacin for serious infections refrain from ingesting calcium supplements. If this is not possible, administration of ciprofloxacin 2 h before ingestion of the supplement is suggested.     

Classification of infective endocarditis by Duke''s criteria and transesophageal echocardiography: a 1-year retrospective analysis

The effects of a high-fat meal on the bioavailability of oxycodone hydrochloride, administered as a recently developed 40 mg controlled-release (CR) tablet or a 20 mg immediate-release (IR) solution, were evaluated in a randomized crossover study in 22 normal male and female subjects. Serial blood samples were collected for 36 h after dosing and analyzed for oxycodone by a validated method using gas chromatography/mass spectrometry. There was no significant food effect with CR oxycodone as judged by 90% confidence interval (CI) analysis of AUC0-infinity and Cmax values under fed and fasted conditions. For the IR solution, both oxycodone bioavailability and peak plasma oxycodone concentration were significantly altered by consumption of the high-fat meal, with the mean value for AUC0-infinity increasing to 120% (CI = 109-132%) and the mean value for Cmax decreasing to 82% (CI = 47-91%) of values observed in the fasted condition. Adverse events reported for both formulations were mostly mild to moderate in severity and typical of those observed with opioids.     

Intestinal uptake and biliary excretion of the isoflavone genistein in rats

The intestinal absorption, biliary excretion and metabolism of genistein, a potent and specific protein tyrosine kinase inhibitor that occurs naturally in soy foods, was examined in anesthetized, adult female rats fitted with indwelling biliary cannulas. 4-14C-Genistein, when infused into the duodenum, was rapidly absorbed from the intestine, taken up by the liver and excreted into the bile as its 7-O-beta-glucuronide conjugate. Cumulative recovery of 14C-radioactivity in the bile over a 4-h period was 70-75% of the dose. When genistein was infused into the portal vein, it was also taken up efficiently by the liver, conjugated with glucuronic acid and transported into bile. However, portal blood collected after duodenal infusions of genistein contained mostly genistein 7-O-beta-glucuronide, suggesting that in vivo glucuronidation occurred in the intestinal wall rather than the liver. This was confirmed using everted intestinal sac preparations. Reinfusion of genistein 7-O-beta-glucuronide into the duodenum or into the mid small intestine resulted in its reappearance in the bile, albeit more slowly than when genistein was infused. Over a 4-h collection period, the cumulative recovery of 14C-radioactivity in bile was 27 and 70-75% of the administered dose for duodenal and ileal infusions, respectively. These data indicate that genistein is highly bioavailable in rats and because of its enterohepatic circulation may accumulate within the gastrointestinal tract.     

Are there special considerations in the prescription of serotonin reuptake inhibitors for women?

The aim of this study was to evaluate and compare the pharmacokinetics of naftidrofuryl (CAS 3200-06-4) after single oral administration of a 200 mg naftidrofuryl tablet (Praxilene) in Caucasian male and female elderly healthy volunteers versus young healthy volunteers. Thirty healthy volunteers were included in a randomised phase I trial in 3 parallel groups of 10 subjects aged 18-35 years (group 1), 60-70 years (group 2) and 70-80 years (group 3). Blood samples were taken over a period of 24 h after dosing for evaluation of the pharmacokinetics of naftidrofuryl. The Cmax, tmax, AUC0-t parameters were measured and t1/2 and AUC0-alpha were calculated by a model independent method. The mean (+/- SD) pharmacokinetic parameters of naftidrofuryl after single oral administration of 200 mg of naftidrofuryl for group 1 were as follows: tmax 3.5 h (median), Cmax 284 +/- 136 ng/ml, t1/2 3.69 +/- 1.30 h, AUC0-t 1865 +/- 905 h.ng/ml and AUC0-inf 2055 +/- 901 h.ng/ml; for group 2: tmax 2.75 h (median), Cmax 282 +/- 165 ng/ml, t1/2 3.03 +/- 1.08 h, AUC0-t 1783 +/- 1147 h.ng/ml and AUC0-inf 1856 +/- 1158 h.ng/ml; for group 3: tmax 2.5 h (median), Cmax 271 +/- 86 ng/ml, t1/2 3.50 +/- 1.29 h, AUC0-t 1742 +/- 544 h.ng/ml and AUC0-inf 1834 +/- 549 h.ng/ml. Statistical analysis was performed on the pharmacokinetic parameters with one-way ANOVA in order to compare each age group. The results of the pharmacokinetic and statistical analysis showed no significant difference between each age group. The mean pharmacokinetic parameters of naftidrofuryl after single oral administration of 200 mg of naftidrofuryl in the whole population were as follows: tmax 2.75 h (median), for Cmax 279 +/- 128 ng/ml, t1/2 3.41 +/- 1.22 h, AUC0-t 1797 +/- 870 h.ng/ml for AUC0-inf 1910 +/- 877 h.ng/ml. In conclusion, advanced age did not appear to influence the pharmacokinetic profile of oral naftidrofuryl, and therefore it is not necessary to adjust the dosage of naftidrofuryl in this population.     

Pharmacokinetics, safety, and tolerability of ascending single doses of moxifloxacin, a new 8-methoxy quinolone, administered to healthy subjects

The pharmacokinetics of moxifloxacin were investigated in six studies after oral administration of 50, 100, 200, 400, 600, and 800 mg. Eight healthy male volunteers were included in each study. With doses of up to 200 mg the study was performed as a double-blind, randomized group comparison (n = 6 verum and n = 2 matched placebo); with the higher doses the study was conducted with a double-blind, randomized, crossover design. Safety and tolerability were assessed by evaluation of vital signs, electrocardiograms, electroencephalograms, clinical chemistry parameters, results of urinalysis, and adverse events. The drug was well tolerated. The concentrations of moxifloxacin in plasma, urine, and saliva were determined by a validated high-pressure liquid chromatography assay with fluorescence detection. In addition, plasma and urine samples were analyzed by a bioassay. A good correlation between both methods was seen, indicating an absence of major active metabolites. The mean maximum concentrations of moxifloxacin in plasma (Cmax) ranged from 0.29 mg/liter (50-mg dose) to 4.73 mg/liter (800-mg dose) and were reached 0.5 to 4 h following drug administration. After reaching the Cmax, plasma moxifloxacin concentrations declined in a biphasic manner. Within 4 to 5 h they fell to about 30 to 55% of the Cmax, and thereafter a terminal half-life of 11 to 14 h accounted for the major part of the area under the concentration-time curve (AUC). During the absorption phase concentrations in saliva were even higher than those in plasma, whereas in the terminal phase a constant ratio of the concentration in saliva/concentration in plasma of between 0.5 and 1 was observed, indicating a correlation between unbound concentrations in plasma and levels in saliva (protein binding level, approximately 48%). AUC and Cmax increased proportionally to the dose over the whole range of doses investigated. Urinary excretion amounted to approximately 20% of the dose. Data on renal clearance (40 to 51 ml/min/1.73 m2) indicated partial tubular reabsorption of the drug. The pharmacokinetic parameters derived from compartmental and noncompartmental analyses were in good agreement. The kinetics could be described best by fitting the data to a two-compartment body model.