Population Pharmacokinetics of Tadalafil in Pediatric Patients with Pulmonary Arterial Hypertension: A Combined Adult/Pediatric Model.

BACKGROUND: Tadalafil 40 mg once daily is approved for adult patients with pulmonary arterial hypertension (PAH). To investigate and potentially fulfill an unmet need in pediatric patients with PAH, pharmacokinetic (PK) data were explored in a pediatric phase Ib/II study and pooled with prior phase III (pulmonary arterial hypertension and response to tadalafil [PHIRST-1]) adult data to develop the first population PK model for tadalafil in pediatric patients with PAH. METHODS: H6D-MC-LVIG (NCT01484431) was an open-label, multicenter, multiple ascending dose study in pediatric patients with PAH, while PHIRST-1 was a phase III, multicenter, randomized, double-blind, placebo-controlled, parallel design study in adults with PAH who received one of five treatments (tadalafil 2.5, 10, 20, or 40 mg, or placebo orally, once daily). PK data from the studies were pooled to develop a pediatric population PK model for tadalafil that characterized relationships among dose, exposure, and the effects of covariates with an aim to develop a population PK model that could simulate concentration-time profiles and assess exposure-matched dosing strategies in a pediatric PAH population. RESULTS: In line with the observed data, modeling and simulation demonstrated that the doses studied in the pediatric population produced area under the concentration-time curves (AUCs) within the range of those associated with improved exercise ability in adults with PAH. The analyses included 1430 observations from 305 adult patients (PHIRST-1: 69 males and 236 females, 1102 observations) and 19 pediatric patients (LVIG: 6 males and 13 females, 328 observations) who received tadalafil once daily at different dose levels. The best-fit base model retained an effect of weight on apparent volume of distribution (V/F), fixed to the allometric scaling value of 1, and did not include an effect of weight on apparent clearance (CL/F). Other covariate effects were that bosentan increased CL/F, V/F decreased with decreasing body weight, and bioavailability (F) decreased with increasing dose and decreasing age. The PK model reliably predicted the observed concentrations and overall variability evident from the overlap of the individual observed concentrations with the distributions of simulated concentrations. CONCLUSIONS: A one-compartment model parameterized in terms of F, absorption rate constant, CL/F, and V/F described the data well. The model demonstrated that plasma tadalafil concentrations in pediatric patients aged 2 to < 18 years were similar to those in adults at similar doses, and confirmed that dosing of 40 mg once daily in pediatric patients with a bodyweight ≥ 40 kg, and a dose of 20 mg once daily in patients with a body weight < 40 kg and aged ≥ 2 years are suitable for phase III evaluation. TRIAL REGISTRATION NUMBER (DATE OF REGISTRATION): LVIG: ClinicalTrials.gov identifier: NCT01484431 (2 December 2011). PHIRST-1: ClinicalTrials.gov identifier: NCT00125918 (2 August 2005).

Physiologically based pharmacokinetic modeling of tadalafil to inform pediatric dose selection in children with pulmonary arterial hypertension.

Tadalafil, a phosphodiesterase 5 inhibitor, is being investigated as a treatment for pulmonary arterial hypertension (PAH) in children aged 6 months to less than 18 years. Tadalafil pharmacokinetic (PK) data in children less than 2 years old are unavailable, therefore a physiologically based pharmacokinetic (PBPK) model was developed to enable estimation of tadalafil doses in children less than 2 years old. The model was verified in adults and extended for use in children by modifying CYP3A-mediated intrinsic clearance to include CYP3A7. To account for co-dosing of the commonly prescribed moderate CYP3A4 inducer bosentan, predicted exposures were increased by a factor of 1.54 based on changes in exposure in adults with PAH. This factor was predictable using a bosentan PBPK model. The tadalafil model was verified in children aged greater than or equal to 2 years by comparing predicted and observed exposures. Tadalafil doses for children less than 2 years old were calculated as target area under the concentration curve from zero to 24 h (AUC0-24 )/predicted AUC0-24 , with target AUC0-24 of 10,000 ng*h/ml based on adult 40 mg single dose exposures determined in patients without bosentan background treatment. These doses were 2 mg, 3 mg, 4 mg, and 6 mg, respectively, for children aged birth to less than 1 month, 1 month to less than 6 months, 6 months to less than 1 year, and 1 to less than 2 years. Due to uncertainties in CYP maturation, a nonmechanistic steady-state volume scalar, and lack of PK data in children less than 2 years old, accumulation of tadalafil to steady-state in children less than 2 years was not verifiable. Safety of proposed doses is supported by postmarketing research and investigator-led trials.

Population Pharmacokinetics and Pharmacodynamics of the Neutralizing Antibodies Bamlanivimab and Etesevimab in Patients With Mild to Moderate COVID-19 Infection.

Bamlanivimab and etesevimab are neutralizing antibodies indicated for treatment of coronavirus disease 2019 (COVID-19) in patients with early mild or moderate disease. We present the use of pharmacokinetic/pharmacodynamic (PK/PD) modeling that characterizes the timecourse of viral load obtained from 2,970 patients from 2 phase II clinical trials. The model was used for identification of optimal doses that would result in at least 90% of patients achieving serum drug concentrations that result in 90% of maximum drug effect (IC90) for at least 28 days. The serum IC90 (95% confidence interval) was estimated to be 4.2 (3.2-4.3) µg/mL for bamlanivimab and 12.6 (9.7-12.8) µg/mL for etesevimab. Observed clinical trial data confirmed PK and PK/PD model predictions that doses of 700 mg bamlanivimab and 1,400 mg etesevimab would result in maximum reduction in viral load, with no additional effect seen at higher doses. No dose adjustment is recommended as age, sex, race, baseline viral load, and hepatic impairment did not have a significant impact on the PK of the antibodies. Earlier drug administration resulted in greater reductions in viral load, demonstrating the importance of receiving treatment as soon as possible. Relative to placebo, typical reduction in viral load over a 7-day period was estimated to be 80 or 93% (drug administered 4 days or 1 day after the onset of symptoms, respectively), P < 0.0001. PK/PD modeling and simulation was pivotal throughout the drug development and emergency use authorization process.

Pharmacokinetics and safety of tadalafil in a paediatric population with pulmonary arterial hypertension: A multiple ascending-dose study.

AIMS: To evaluate the pharmacokinetics and safety of once-daily (QD) tadalafil in paediatric patients with pulmonary arterial hypertension (PAH) to establish an appropriate dose range for further research. METHODS: This was an open-label, multicentre, international, multiple-ascending-dose study. Patients aged ≥2 years were enrolled into 1 of 3 cohorts based on body weight: heavy-weight (≥40 kg), middle-weight (25 to <40 kg), and light-weight (<25 kg). Each patient received tadalafil QD for 10 weeks: 5 weeks at a low dose, then 5 weeks at a high dose. The doses for each cohort were intended to produce plasma tadalafil concentrations within the range produced by 5-10 mg (for the low dose) or 20-40 mg (for the high dose) of tadalafil in adults with PAH. Area under the plasma concentration-time curve during 1 dosing interval (AUCτ ), maximum concentration, and apparent clearance were assessed throughout the trial, as were safety and tolerability. RESULTS: The study enrolled 19 patients aged 2-17 years, weighing 9.9-76.0 kg. Tadalafil's median (range) steady-state AUCτ at the high dose was 7243 (3131-13 088) ng•h/mL across all patients. Concentrations were higher in no bosentan-treated patients than in bosentan-treated patients, but both populations were within the range of respective adult patients taking 20-40 mg QD. Tadalafil had an acceptable safety profile consistent with the known safety profile of tadalafil in adults. CONCLUSIONS: Tadalafil 40 mg QD for patients ≥40 kg, and 20 mg QD for patients <40 kg and aged ≥2 years, are suitable for further research in paediatric patients with PAH.

Central pharmacodynamic activity of solanezumab in mild Alzheimer's disease dementia.

INTRODUCTION: Solanezumab treatment was previously shown to significantly increase total (bound + unbound) cerebrospinal fluid (CSF) levels of amyloid ß (Aß)1-40 and Aß1-42 in patients with mild to moderate Alzheimer's disease dementia yet did not produce meaningful cognitive effects. This analysis assessed solanezumab's central nervous system target engagement by evaluating changes in CSF total and free Aß isoforms and their relationship with solanezumab exposure. METHODS: CSF Aß isoform concentrations were measured in patients with mild Alzheimer's disease dementia from a pooled EXPEDITION + EXPEDITION2 population and from EXPEDITION3. CSF solanezumab concentrations were determined from EXPEDITION3. RESULTS: Solanezumab produced statistically significant increases in CSF total Aß isoforms versus placebo, which correlated with CSF solanezumab concentration. Inconsistent effects on free Aß isoforms were observed. Solanezumab penetration into the central nervous system was low. DISCUSSION: Solanezumab administration engaged the central molecular target, and molar ratio analyses demonstrated that higher exposures may further increase CSF total Aß concentrations.

Comparison of pharmacokinetics, pharmacodynamics, safety, and tolerability of the amyloid ß monoclonal antibody solanezumab in Japanese and white patients with mild to moderate alzheimer disease.

OBJECTIVES: Solanezumab is a humanized anti-amyloid ß monoclonal antibody being developed as a passive immunization treatment to slow the progression of Alzheimer disease (AD). Pharmacokinetics (PK), pharmacodynamics, safety, and tolerability after a single dose of solanezumab were compared between Japanese and white patients with AD. METHODS: Japanese and white patients with mild to moderate AD were enrolled in 2 separate studies. In each study, single doses of solanezumab at 0.5, 1.5, 4.0, and 10.0 mg/kg were administered by intravenous infusion. Plasma concentrations of solanezumab and amyloid ß (Aß) were measured. A safety assessment was conducted up to 112 days after a single-dose administration of solanezumab. RESULTS: The PK profile was similar between the Japanese and the white patients with AD. In both the Japanese and the white patients, clearance and volume of distribution appeared similar across doses, suggesting that solanezumab exhibited dose-proportional PK within the studied dose range. A marked increase in plasma total Aß was observed; both the magnitude and time to reach maximum concentration tended to increase with increasing doses of solanezumab. Administration of solanezumab was generally well-tolerated in both Japanese and white patients with AD. CONCLUSIONS: When administered as a per-kilogram single dose of solanezumab, PK and pharmacodynamics (plasma total Aß1-40 concentration) in the Japanese patients with AD were comparable with those in the white patients with AD. In addition, solanezumab was generally well tolerated in both Japanese and white patients at all dose levels.

Safety, tolerability, and effects on plasma and cerebrospinal fluid amyloid-beta after inhibition of gamma-secretase.

OBJECTIVES: gamma-Secretase inhibitors may be useful as disease-modifying drugs for the treatment of Alzheimer disease. LY450139 is a gamma-secretase inhibitor currently in clinical development, with doses being optimized through the use of biomarkers. METHODS: To further characterize biomarker responses to LY450139, single oral doses of 60, 100, or 140 mg were administered to volunteers without neuropsychiatric disease. Extensive safety assessments were obtained along with measures of changes in amyloid-beta (Abeta) in plasma and cerebrospinal fluid (CSF). A measure of the change in plasma Abeta1-40 was derived (area above the curve), which was determined by both the magnitude and duration of Abeta1-40 reduction. RESULTS: A total of 31 subjects (ages 49-53 years, 19 men) were enrolled. With the possible exception of headache, no clinically significant adverse events or laboratory changes were observed. A dose-proportional increase in drug exposure was present in plasma and in CSF. A dose-dependent change in plasma Abeta1-40 area above the curve was also demonstrated. Using the 140-mg dose, a maximum 72.6% reduction in plasma Abeta1-40 was demonstrated that did not return to baseline for more than 12 hours. Cerebrospinal fluid concentrations of Abeta were unchanged 4 hours after drug administration. CONCLUSIONS: These data show that single doses of LY450139 up to 140 mg are accompanied by a dose-dependent plasma Abeta response. No response in CSF Abeta was apparent 4 hours after dosing.