Pharmacokinetics of tilidine in terminal renal failure.

The aim of the present study was to investigate the pharmacokinetics of tilidine and its metabolites during the dialysis procedure and in the dialysis-free interval. Tilidine is a prodrug that is metabolized presystemically into the active metabolite nortilidine. Nortilidine is degraded thereafter to bisnortilidine and several polar metabolites. Nine patients with a creatinine clearance < 5 ml/min were treated in a crossover design with single oral doses of 1.5 mg/kg on the day of dialysis (dialysis performed from 3 to 6 hours after drug administration) and on a day in the dialysis-free interval. Blood samples were taken frequently and analyzed for tilidine, nortilidine, and bisnortilidine. Drug and metabolite concentrations were also measured in aliquots of dialysate collected during dialysis. Only negligible amounts of tilidine, nortilidine, and bisnortilidine (about 0.9% of the dose) were recovered from the dialysate. The pharmacokinetics of nortilidine and its inactive metabolite bisnortilidine was not affected by dialysis. The presystemic apparent clearance of the prodrug tilidine was decreased significantly during the dialysis-free interval. A significant decrease of the rate of elimination and an increase of the AUC of bisnortilidine were observed if these parameters were compared with data obtained from healthy volunteers. The plasma concentrations of nortilidine were comparable in patients and normal volunteers. Thus, a reduction of the dose of tilidine in patients with severely impaired kidney function seems not to be required. Tilidine and its metabolites cannot be removed from the body by dialysis.

Intravesical administration of 5-aminolevulinic acid (5-ALA). Safety and pharmacokinetics of 5-ALA and its metabolite protoporphyrin IX.

OBJECTIVE: In an open study, the local and systemic side effects and pharmacokinetics of 5-aminolevulinic acid (5-ALA) and the fluorescent metabolite protoporphyrin IX (PPIX) were investigated after intravesical administration for the fluorescent photodetection of superficial bladder carcinoma. PATIENTS AND METHODS: In 20 patients with confirmed bladder carcinoma, 5-ALA was introduced into the bladder 2 h (15 patients) and 4 h (5 patients) before an elective endoscopic resection. The 5-ALA and PPIX levels in the plasma were determined before and up to 10 h after application, and in the urine 2 h or 4 h after application. RESULTS: The plasma level of 5-ALA rose rapidly, the maximal concentration (340 ng/ml) being reached in 0.55 h (2 h) or 0.62 h (4 h). The elimination half-life of 5-ALA amounted to 0.74 h (2 h) or 0.79 h (4 h). In five of the patients, there was a measurable plasma concentration which ranged from the detection limit of 4.3 ng/ml to 14 ng/ml between 2 h and 5 h after application, and then fell below the detection limit after 9 h. Absorption of 5-ALA by the bladder was low, i.e. less than 1% of the total amount applied. During a period of observation of 96 h, no 5-ALA-specific side effects appeared. CONCLUSION: Because of the small quantity of 5-ALA resorbed following its intravesical administration, only minimal concentrations of PPIX that are responsible for producing side effects can be metabolised in the plasma. Therefore, no systemic side effects are to be expected after the intravesical administration of 5-ALA.

Pharmacokinetics of nortilidine and naloxone after administration of tilidine/naloxone solution or tilidine/naloxone sustained release tablets.

Valoron N is a compound which consists of the prodrug tilidine (CAS 20380-58-9), from which the active metabolite nortilidine is formed by demethylation in the liver, and the opiate antagonist naloxone (CAS 465-65-6), which prevents the abuse of the analgesic by opiate dependents. The pharmacokinetics of nortilidine and naloxone were studied in 18 male healthy subjects after oral application of tilidine/naloxone solution or tilidine/naloxone retard tablets, respectively. The following report gives the results on investigations of a) dose linearity after application of 25 mg, 50 mg and 100 mg Valoron N solution, b) dose equivalence of Valoron N solution (4 x 50 mg tilidine) and Valoron N retard tablets (2 x 100 mg tilidine) under steady state conditions, and c) the equivalence of different dose strengths of Valoron N retard tablets (50 mg, 100 mg, 200 mg tilidine/tablet). The results obtained in these studies demonstrate a dose linear kinetic for nortilidine after the application of 25 mg to 100 mg tilidine. Furthermore, there is dose equivalence between the tilidine/naloxone solution and tilidine/naloxone retard tablets, which permits the replacing of the solution with the retard tablets. Because of the equivalence of different dose strengths of Valoron N tablets, patients are able to exchange low dosed Valoron N retard tablets for higher-dosed ones (50 mg, 100 mg and 200 mg tilidine/tablet), if necessary. With their constant release of tilidine and the possibility for individual dosage, the retard tablets are efficient analgesics that improve pain therapy considerably for patients with chronic pain.

Tilidine does not affect human sphincter of Oddi motility--a randomized, controlled study.

AIM: To investigate the effects of intravenous pentazocine and tilidine on sphincter of Oddi motility. METHODS: Twenty patients with suspected sphincter of Oddi dysfunction were enrolled in a prospective, double-blind study. Sphincter of Oddi motility was assessed by means of endoscopic manometry after injection of 0.9% saline, as well as after randomized dosing with either 30 mg pentazocine i.v. (n = 10) or 50 mg tilidine i.v. (n = 10). RESULTS: Pentazocine significantly increased the sphincter of Oddi baseline pressure from 32 +/- 21 mmHg (saline) to 41 +/- 19 mmHg (P = 0.002), whereas tilidine did not alter the sphincter baseline pressure (34 +/- 15 mmHg saline vs. 36 +/- 16 mmHg tilidine, P = 0.16). Furthermore, pentazocine increased the phasic sphincter contraction amplitude (108 +/- 16 mmHg saline vs. 121 +/- 18 mmHg pentazocine, P = 0.004), but tilidine was without any effect (125 +/- 24 mmHg saline vs. 125 +/- 21 mmHg tilidine, P = 0.93). The phasic sphincter of Oddi contraction frequency and duration were not influenced either by pentazocine or by tilidine. CONCLUSION: In contrast to 30 mg of pentazocine, 50 mg of tilidine does not affect sphincter of Oddi motility. Therefore, tilidine can be used during endoscopic manometry and for analgesia in pancreatobiliary disease.

Effect of concomitantly administered cimetidine or ranitidine on the pharmacokinetics of the 5-HT2-receptor antagonist ritanserin.

The effects of concurrent administration of either cimetidine 800 mg once daily or ranitidine 300 mg once daily on the single-dose pharmacokinetics of ritanserin 10 mg were investigated in an open, randomized three-way cross-over, controlled investigation in 9 healthy volunteers. Concurrent administration of cimetidine had no significant effect on the area under the plasma concentration-time curve of ritanserin compared with control experiments. The maximum plasma concentration of ritanserin was decreased significantly (105.0 +/- 9.2 versus 125.0 +/- 13.8 ng/mL; P = .0039), whereas time to reach maximal concentration (tmax) of ritanserin was only slightly but not significantly increased, if the subjects were pretreated with cimetidine. After concurrent ingestion of ranitidine, only a trend to a decrease in the maximum plasma concentration of ritanserin was observed. Time to achieve the maximum plasma concentration, terminal half-life of elimination, and the total area under the plasma concentration-time curve of ritanserin were not altered in comparison with control experiments. The results of the study show that concurrent treatment with cimetidine 800 mg once daily or ranitidine 300 mg once daily has no apparent effect on the systemically available amount of ritanserin after a single oral dose of 10 mg. Both H2-antagonists cause a significant (cimetidine) or borderline significant (ranitidine) decrease of the maximum plasma concentration of ritanserin and a slight but not significant increase in tmax (cimetidine). These effects are of minor clinical importance and seem most likely be due to a decrease of the rate of absorption of ritanserin during concurrent administration of cimetidine/ranitidine.

Pharmacokinetics and pharmacodynamics of cisapride in patients undergoing hemodialysis.

Twenty-two patients who were receiving hemodialysis were studied in three groups of eight subjects each to assess the pharmacokinetics during the dialysis-free interval and during hemodialysis treatment and to assess the pharmacodynamics of cisapride. Cisapride and its metabolite norcisapride were measured by use of HPLC and gas chromatography, respectively. The pharmacodynamic effect of cisapride was measured by means of radionuclide gastric emptying. After a single oral dose of 20 mg the terminal half-life of cisapride was 9.6 +/- 3.3 hours, the volume of distribution was 4.8 +/- 3.3 L/kg, the total oral plasma clearance was 380 +/- 161 ml/min, the area under the curve was 1024 +/- 447 ng.hr/ml (mean +/- SD). Norcisapride only could be detected in the dialysate (0.36 +/- 0.067 mg) and was eliminated by a hemodialysis clearance of 34.7 +/- 7.9 ml/min. Cisapride reduced gastric retention from 77.6% +/- 21.1% to 43.7% +/- 18.2% of maximum filling (40 minutes after meals) and normalized the abnormal gastric emptying time in patients receiving dialysis. Cisapride dosage adjustment or substitution after hemodialysis is not necessary.

[Pharmacokinetics and pharmacodynamics of flunarizine in multimorbid, geriatric patients with vertigo]. / Pharmakokinetik und Pharmakodynamik von Flunarizin bei multimorbiden geriatrischen Patienten mit Schwindel.

Ten multimorbid, geriatric, hospitalised patients, mean age 76 years, were treated for vertigo and received 10 mg flunarizine (CAS 52468-60-7; Sibelium) daily for 3 weeks. The study of the pharmacokinetics and pharmacodynamics of this dosage scheme revealed that the kinetics did not change during the three weeks of therapy. The terminal half-life is 7.3 +/- 3.3 days. Since a steady state concentration is only to be expected after about 5 half-lives, this condition was not fully met yet in most patients after three weeks. The data obtained from the patients examined are essentially identical with those in young and old healthy subjects. The unchanged kinetics during long-term treatment prevent side-effects due to cumulation on the one hand or the decrease of plasma levels to inactive concentrations resulting from enzyme induction. There was not measurable anti-aggregator effect on thrombocytes or erythrocytes. The effectiveness in connection with vertigo seems to be due to a direct labyrinth depressor activity and/or to a selective vasospecific action. No side-effects were observed during the three weeks of therapy.

[Biliary, renal and fecal elimination and distribution of gold after a single oral administration of auranofin, quantified by the instrumental neutron activation analysis method]. / Biliäre, renale und fäkale Elimination und Verteilung von Gold nach einmaliger oraler Gabe von Auranofin, quantifiziert mit der Methode der instrumentellen Neutronenaktivierungsanalyse (INAA).

Three days after cholecystectomy, seven patients received a single dose of auranofin (5 tablets Ridaura = 4.35 mg gold). At defined time points thereafter the gold content in samples of blood, plasma, urine, bile, and feces was determined by instrumental neutron activation analysis (INAA). Maxima of the mean gold concentrations in blood (140 +/- 42 ng/ml) and plasma (173 +/- 54 ng/ml) are found 2 h after oral administration of the antirheumatic agent, after 16 h in urine (43 +/- 28 ng/ml) and bile (65 +/- 50 ng/ml), and after 24 h in erythrocytes (greater than 200 ng/ml). The mean terminal half-lives are 7.6 days (blood), 15 days (plasma), 5 days (erythrocytes), and 6.5 days (bile). The cumulative biliary gold excretion within 8 days after the administration of auranofin was 1.6%, compared with 4% and 40% for renal and fecal elimination, respectively. The gold concentration in plasma is always higher than that in bile. There is a close correlation between the areas under the concentration curves (AUC) in bile and plasma (r = 0.864).

Pharmacokinetics of auranofin a single dose study in man.

Three days after cholecystectomy 7 patients were given a single dose of auranofin (5 tablets Ridaura = 4.35 mg gold). Gold was detected in samples of blood, plasma, urine, bile and feces. The determinations were carried out using instrumental neutron activation analysis. The mean gold concentrations reached maximum in blood and plasma after 2 h and in urine and bile after 16 h. The mean terminal half-lives were 7.6 days (blood), 15 days (plasma) and 6.5 days (bile). Cumulative amounts of gold excreted in bile, urine, and feces were 1.6, 4 and 40%, respectively.

Prevention of an early re-occlusion after thrombolytic therapy of acute myocardial infarction by ketanserin.

A problem after successful thrombolytic therapy of acute myocardial infarction is the early occurrence of re-occlusions. An incidence between 10 and 30% is reported. All efforts made so far to reduce the re-occlusion rate using a variety of agents have been disappointing. In a pilot study 20 patients with acute myocardial infarction were treated, in whom a successful lytic therapy with urokinase or rt-PA was documented by means of coronary angiography 90 min after the beginning of treatment. Subsequently the patients were heparinised (thrombin time greater than 30 s), and in addition the selective serotonin-2 receptor-blocking agent ketanserin was given intravenously (4 mg/h). After 24 h the occurrence of early reocclusions was investigated by control angiography. None of the 20 patients showed reocclusions. The degree of stenosis in the infarcted vessel was 72% immediately after lytic therapy, and 68% after 24 h. These preliminary results may suggest a possible reduction in the re-occlusion rate after thrombolytic therapy with a combination of heparin and ketanserin.

Incidence and clinical relevance of QT prolongation caused by the new selective serotonin antagonist ketanserin. Multicenter Ketanserin Research Group.

Efficacy and safety of ketanserin was studied prospectively in a randomized and double-blind trial involving 221 patients treated for hypertension and/or coronary artery disease. Since ketanserin has been suggested to cause QTc prolongation, we investigated the incidence and severity of this effect, as well as its influence on the incidence of malignant ventricular arrhythmias during Holter monitoring. After a 1-week run-in-period, all patients were examined, measuring blood pressure, electrocardiogram (ECG) and 24-hour Holter ECG. Two thirds of the patients (n = 147) were then randomized to ketanserin, 1 week 20 mg b.i.d. followed by 3 weeks 40 mg b.i.d.; one third of the patients (n = 74) received placebo b.i.d. for 4 weeks. After 4 weeks of treatment, blood pressure, ECG and 24-hour Holter ECG were performed. In hypertensive patients, ketanserin resulted in a significant reduction of systolic (mean reduction: -17 +/- 2 mm Hg; p less than 0.0001) and diastolic blood pressure (-12 +/- 1 mm Hg; p less than 0.0001) as compared to baseline, and to the placebo group (p less than 0.005 for systolic and diastolic blood pressure). The QTc interval was prolonged with ketanserin (mean value: 400 to 418 ms; p less than 0.01) but not with placebo (399 vs. 402 ms). In the ketanserin group 30% of patients and in the placebo group 8% of patients had QTc prolongation greater than 30 ms (p less than 0.01). QTc was not prolonged to greater than 500 ms in any patient. During Holter monitoring 128/147 patients (ketanserin group) and 61/74 patients (placebo group) had ventricular premature beats; in 42 (ketanserin group) and 13 patients (placebo group) ventricular pairs and tachycardia were documented. Incidence and severity of the ventricular arrhythmias after 4 weeks of treatment were not different between the ketanserin and placebo groups. No sustained ventricular tachycardia occurred in any patient after ketanserin treatment. Thus, though ketanserin prolonged QTc in one third of the patients, the drug was not arrhythmogenic or antiarrhythmic.

Incidence and clinical relevance of QT prolongation caused by the new selective serotonin antagonist ketanserin.

Efficacy and safety of ketanserin were studied prospectively in a randomized, double-blind trial involving 221 patients treated for hypertension or coronary artery disease, or both. Since ketanserin has been suggested to cause QTc prolongation, the incidence and severity of this effect were investigated, as was the incidence of malignant ventricular arrhythmias during Holter monitoring. After a 1-week run-in period, all patients were examined: blood pressure was measured and electrocardiograms and 24-hour Holter electrocardiograms were obtained. Two thirds of the patients (n = 147) were then randomized to receive ketanserin for 1 week (20 mg twice daily) followed by 3 weeks of 40 mg twice daily; one third of the patients (n = 74) received placebo (twice daily) for 4 weeks. After 4 weeks of treatment, blood pressure, electrocardiograms and 24-hour Holter electrocardiograms were repeated. In hypertensive patients, ketanserin significantly reduced systolic (mean reduction 17 +/- 2 mm Hg, p less than 0.0001) and diastolic blood pressure (12 +/- 1 mm Hg, p less than 0.0001) compared to baseline, and to the placebo group (p less than 0.005 for systolic and diastolic blood pressure). The QTc interval was prolonged with ketanserin (mean 400 to 418 ms, p less than 0.01) but not with placebo (399 vs 402 ms). In the ketanserin group 30% of patients and in the placebo group 8% of patients had QTc prolongation greater than 30 ms (p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)

The pharmacokinetics of metoprolol and its metabolites in dialysis patients.

The kinetics of tritiated metoprolol and its metabolites have been determined after intravenous and oral administration in dialysis patients. The kinetic behaviour of metoprolol in these patients does not differ from that in healthy volunteers, since its elimination depends on hepatic metabolism. The pharmacologically less active metabolite alpha-hydroxymetoprolol is formed to an individually varying degree and its half-life is prolonged. The concentration of the total radioactivity, which represents the sum of all metabolites, does not decline in the dialysis interval. During haemodialysis, however, its concentration decreases with a half-life of 5h. It might be assumed, that dialysis of these polar compounds is rather nonspecific and that it depends essentially on the dialysis technique.

[Pharmacokinetics of gold after administration of aurokeratinate (author's transl)]. / Das pharmakokinetische Verhalten von Gold nach Gabe von Aurokeratinat.

Aurokeratinate (Auro-Detoxin) was administered intramuscularly to patients with chronic rheumatoid arthritis, using two different dosage schedules and measuring serum gold concentration. (1) Using slowly rising doses (as generally practised) the gold level gradually rose to 3.2 microgram/ml after four weeks (before the ninth injection), without reaching cumulation equilibrium. Elimination from serum occurred during this phase, with a half-life of 3-5 days. When treatment was continued at about 25 mg gold twice weekly, the cumulation equilibrium was reached with a minimal value at 3.5 microgram/ml and a maximal one of 6 microgram/ml, elimination half-life then being increased to nine days. During the subsequent maintenance treatment with 65 mg gold once a month the serum-gold concentration fell to about 1 microgram/ml, maximal values being about 6 microgram/ml, with an elimination half-life of 11 days. (2) With a constant dose of about 25 mg gold twice weekly, cumulation equilibrium was reached after two weeks (3.4 microgram/ml before the fifth injection), while on 50 mg gold every 14 days as maintenance dose the serum concentration was between 2 microgram/ml minimally and 6 microgram/ml maximally. At the modified dosage the drug was well tolerated.

[Studies on the competition of several antibiotics for binding sites to serum protein (author's transl)]. / Untersuchungen zur Konkurrenz verschiedener Antibiotika um ihre Bindungsstellen an Serumeiweissen.

Protein binding of benzylpenicillin, acidocillin, ampicillin, oxacillin, tetracycline and clindamycin was determined in vitro by equilibrium dialysis with and without combination. Concentrations of labelled drugs were measured by scintigraphy, of non-labelled drugs by agar diffusion technique using a test strain resistant against the second antibiotic of the combination. Percentage of protein binding of the different penicillins decreased somewhat in higher concentrations, whereas with tetracycline there was found a significant increase of protein binding in higher concentrations. There was no inhibition of protein binding when combining two penicillins or tetracycline with clindamycin at lower concentrations. If very high concentrations of oxacillin of flucloxacillin were used in combination with benzylpenicillin protein binding of benzylpenicillin was reduced by about 20%.