Malcolm I. Mitchell scite author profile

Aims To characterize tadalafil plasma pharmacokinetics in healthy subjects following single and multiple doses. Methods Noncompartmental parameters were calculated for healthy subjects receiving a single 2.5–20‐mg tadalafil dose in 13 clinical pharmacology studies. An integrated statistical analysis of results in 237 subjects provided global averages and an assessment of effects of body mass index (BMI), age, gender and smoking status. Diurnal variation, food effects and proportionality of exposure to dose were analysed in three studies. Multiple‐dose pharmacokinetics were evaluated in a separate study in which parallel groups of 15 subjects received 10 or 20 mg tadalafil once daily for 10 days. Results Tadalafil was absorbed rapidly with mean Cmax (378 µg l−1 for 20 mg) observed at 2 h; thereafter, concentrations declined nearly monoexponentially with a mean (5th, 95th percentiles) t1/2 of 17.5 (11.5, 29.6) hours. Mean oral clearance (CL/F) was 2.48 (1.35, 4.35) l h−1 and apparent volume of distribution (Vz/F) was 62.6 (39.5, 92.1) l. No clinically meaningful effect of BMI, age, gender or smoking was identified. Exposure was not substantially affected by time of dosing. Food had negligible effects on bioavailability as assessed by 90% confidence intervals for Cmax and AUC mean ratios. Parameters were proportional to dose, indicating that doubling the dose doubled exposure. Steady state was attained by day 5 following once‐daily administration, and accumulation (1.6‐fold) was consistent with the t1/2. Conclusions Tadalafil pharmacokinetics are linear with respect to dose and time, and are not affected by food. Systemic clearance is low relative to other phosphodiesterase 5 inhibitors.

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Effect of renal impairment on the pharmacokinetics of exenatide

Linnebjerg

Kothare

Park

et al. 2007

Brit J Clinical Pharma

179

115

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What is already known about this subject • Nonclinical studies have shown that exenatide is primarily cleared by the renal system. • It was not known to what degree the clinical pharmacokinetics and tolerability would be affected by increasing renal impairment (RI). What this study adds • Patients with mild to moderate RI adequately tolerate current therapeutic doses of exenatide. • However, exenatide is not recommended in patients with severe RI or end‐stage renal disease. Aims To evaluate the pharmacokinetics (PK), safety and tolerability of a single exenatide dose in patients with renal impairment (RI). Methods Exenatide (5 or 10 µg) was injected subcutaneously in 31 subjects (one with Type 2 diabetes) stratified by renal function [Cockcroft–Gault creatinine clearance (CrCL), number of subjects]: normal (>80 ml min−1, n = 8), mild RI (51–80 ml min−1, n = 8), moderate RI (31–50 ml min−1, n = 7) or end‐stage renal disease (ESRD) requiring haemodialysis (n = 8). PK data were combined with four previous single‐dose studies in patients with Type 2 diabetes to explore the relationship of exenatide clearance (CLp/F) and CrCL. Results Mean half‐life for healthy, mild RI, moderate RI and ESRD groups were 1.5, 2.1, 3.2 and 6.0 h, respectively. After combining data from multiple studies, least squares geometric means for CLp/F in subjects with normal renal function, mild RI, moderate RI and ESRD were 8.14, 5.19, 7.11 and 1.3 l h−1, respectively. Exenatide was generally well tolerated in the mild and moderate RI groups, but not in subjects with ESRD due to nausea and vomiting. Simulations of exenatide plasma concentrations also suggest patients with ESRD should have a propensity for poor tolerability at the lowest available therapeutic dosage (5 µg q.d.). Conclusions Since tolerability and PK changes were considered clinically acceptable in patients with mild to moderate RI, it would be appropriate to administer exenatide to these patients without dosage adjustment. However, poor tolerability and significant changes in PK make the currently available therapeutic doses (5 and 10 µg) unsuitable in severe RI or ESRD.

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INTERACTION BETWEEN THE PHOSPHODIESTERASE 5 INHIBITOR, TADALAFIL AND 2 Α-Blockers, DOXAZOSIN AND TAMSULOSIN IN HEALTHY NORMOTENSIVE MEN

et al. 2004

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Post-injection delirium/sedation syndrome in patients with schizophrenia treated with olanzapine long-acting injection, II: investigations of mechanism

McDonnell

Detke

Bergstrom³

et al. 2010

BMC Psychiatry

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BackgroundOlanzapine long-acting injection (LAI) is a salt-based depot antipsychotic combining olanzapine and pamoic acid. The slow intramuscular dissolution of this practically insoluble salt produces an extended release of olanzapine lasting up to 4 weeks. However, in a small number of injections (< 0.1%), patients experienced symptoms suggestive of olanzapine overdose, a phenomenon that has been termed "post-injection delirium/sedation syndrome" (PDSS). The authors conducted a series of parallel investigations into the possible reasons PDSS events occur.MethodsHealthcare providers involved in the PDSS cases were queried for clinical information around the events. Plasma samples from patients experiencing PDSS were collected when possible (12/30 cases) and olanzapine concentrations compared with the known pharmacokinetic profile for olanzapine LAI. Product batches and used vials from the PDSS cases were evaluated for compliance with established manufacturing standards and/or possible user error. Because this depot formulation depends upon slow dissolution at the intramuscular injection site, in-vitro experiments were conducted to assess solubility of olanzapine pamoate in various media.ResultsInjection administrators reported no unusual occurrences during the injection. No anomalies were found with the product batches or the remaining suspension in the used vials. Olanzapine concentrations during PDSS events were higher than the expected 5-73 ng/mL range, with concentrations exceeding 100 ng/mL and in some cases reaching >600 ng/mL during the first hours after injection but then returning to the expected therapeutic range within 24 to 72 hours. Solubility and dissolution rate of olanzapine pamoate were also found to be substantially greater in plasma than in other media such as those approximating the environment in muscle tissue.ConclusionsManufacturing irregularities, improper drug reconstitution, and inappropriate dosing were ruled out as possible causes of PDSS. In-vitro solubility and in-vivo pharmacokinetic investigations suggest that PDSS is related to exposure of the injected product to a substantial volume of blood. This exposure is most likely the result of unintended partial intravascular injection or blood vessel injury during the injection (occurring even with proper injection technique) with subsequent seepage of the medication into the vasculature, which would produce higher than intended olanzapine concentrations and symptoms consistent with PDSS.Trial RegistrationClinicalTrials.gov ID; URL: http://http//www.clinicaltrials.gov/: NCT00094640, NCT00088478, NCT00088491, NCT00088465, and NCT00320489

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Effect of tadalafil on cytochrome P450 3A4?mediated clearance: Studies in vitro and in vivo

Ring

Patterson

Mitchell

et al. 2005

Clinical Pharmacology & Therapeutics

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In vitro results suggested that tadalafil would have little effect on the pharmacokinetics of drugs metabolized by CYP3A. Clinical studies demonstrated that the pharmacokinetics of 2 different CYP3A substrates, midazolam and lovastatin, were virtually unchanged after tadalafil coadministration. Thus therapeutic concentrations of tadalafil do not produce clinically significant changes in the clearance of drugs metabolized by CYP3A.

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Pharmacokinetic Interaction Between Tadalafil and Bosentan in Healthy Male Subjects

Wrishko

Dingemanse

et al. 2006

Chest

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Overview of the cardiovascular effects of tadalafil

Emmick

Stuewe

Mitchell

2002

European Heart Journal Supplements

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Effects of gender, age, diabetes mellitus and renal and hepatic impairment on tadalafil pharmacokinetics

Forgue

Phillips

Bedding³

et al. 2006

Brit J Clinical Pharma

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AimsTo evaluate the effects of gender, age, diabetes mellitus, renal and hepatic impairment on tadalafil pharmacokinetics and tolerability. MethodsSix single-dose (5, 10 or 20 mg orally) clinical pharmacology studies were conducted in the UK, Belgium, Poland and Germany in healthy male and female subjects, elderly subjects and subjects with diabetes mellitus, renal impairment, end-stage renal failure (ESRF) or hepatic impairment. The gender study also incorporated administration of 10 mg tadalafil daily for 10 days. ResultsSystemic exposure in the elderly was 25% greater than in young subjects (mean AUC ratio 1.25; 90% confidence interval 0.972, 1.61). The AUC was 19% lower in subjects with diabetes mellitus than in healthy age/gender-matched controls. Pharmacokinetics in female subjects were essentially similar to those in males. Exposure in subjects with mild or moderate renal insufficiency was approximately twice that in healthy subjects. The mean AUC for the major metabolite (total methylcatechol glucuronide) in the presence of ESRF was three times the mean for healthy subjects. Haemodialysis contributed negligibly to elimination of tadalafil or the metabolite. Hepatic impairment had negligible effects on exposure. The most common adverse events in these six studies were headache, back pain and myalgia. A 10-mg dose was not well tolerated by subjects with moderate renal dysfunction in this study. ConclusionsNo clinically significant effect of gender, age, diabetes mellitus or hepatic impairment on tadalafil pharmacokinetics was observed. Renal insufficiency resulted in increased systemic exposure. Tadalafil was not associated with any serious clinically significant adverse events or study discontinuations due to adverse events.

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