The pharmacokinetics of racemic ibuprofen and its stereoisomers have been described in adults, but little has been reported for children. The pharmacodynamics of acetaminophen and ibuprofen have not been well described in either adults or children. Children (N = 39; age range, 11 months to 11 1/2 years) were randomly selected to receive a single dose of either 6 mg/kg of liquid ibuprofen or 10 to 15 mg/kg of liquid acetaminophen (mean +/- dose given, 11.6 +/- 0.7). Pharmacokinetic and pharmacodynamic analyses were performed with temperature as the effect parameter and mean acetaminophen, total ibuprofen, and ibuprofen stereoisomer concentrations over time. Time of maximum serum concentrations for ibuprofen was 54.05 minutes versus 27.0 minutes for acetaminophen, time to maximum temperature decrease was 183 minutes for ibuprofen and 133 minutes for acetaminophen. Temperature reduction for the ibuprofen dose was significantly different than that of the acetaminophen dose at later time points (240, 300, 360, 420, and 480 minutes). Further pharmacokinetic-pharmacodynamic studies with use of individual ibuprofen stereoisomers and other dosing regimens are indicated.
Monitoring inosine monophosphate dehydrogenase (IMPDH) activity as a biomarker of mycophenolic acid (MPA)–induced immunosuppression may serve as a novel approach in pharmacokinetics (PK)/pharmacodynamics (PD)–guided therapy. The authors prospectively studied MPA pharmacokinetics and IMPDH inhibition in 28 pediatric de novo kidney transplant recipients. Pretransplant IMPDH activity and full PK/PD profiles were obtained at 3 different occasions: 1 to 3 days, 4 to 9 days, and approximately 6 months after transplant. Large intra- and interpatient variability was noted in MPA pharmacokinetics and exposure and IMPDH inhibition. MPA exposure (AUC0-12 h) was low early posttransplant and increased over time and stabilized at months 3 to 6. Mean pretransplant IMPDH activity (6.4 ± 4.6 nmol/h/mg protein) was lower than previously reported in adults. In most of the patients, IMPDH enzyme activity decreased with increasing MPA plasma concentration, with maximum inhibition coinciding with maximum MPA concentration. The overall relationship between MPA concentration and IMPDH activity was described by a direct inhibitory Emax model (EC50 = 0.97 mg/L). This study suggests the importance of early PK/PD monitoring to improve drug exposure. Because IMPDH inhibition is well correlated to MPA concentration, pre-transplant IMPDH activity may serve as an early marker to guide the initial level of MPA exposure required in a pediatric population.
Aim The purpose of this study was to develop a population pharmacokinetic and pharmacodynamic (PK−PD) model for mycophenolic acid (MPA) in paediatric renal transplant recipients in the early post‐transplant period. Methods A total of 214 MPA plasma concentrations−time data points from 24 patients were available for PK model development. In 17 out of a total of 24 patients, inosine monophosphate dehydrogenase (IMPDH) enzyme activity measurements (n = 97) in peripheral blood mononuclear cells were available for PK−PD modelling. The PK−PD model was developed using non‐linear mixed effects modelling sequentially by 1) developing a population PK model and 2) incorporating IMPDH activity into a PK−PD model using post hoc Bayesian PK parameter estimates. Covariate analysis included patient demographics, co‐medication and clinical laboratory data. Non‐parametric bootstrapping and prediction‐corrected visual predictive checks were performed to evaluate the final models. Results A two compartment model with a transit compartment absorption best described MPA PK. A non‐linear relationship between dose and MPA exposure was observed and was described by a power function in the model. The final population PK parameter estimates (and their 95% confidence intervals) were CL/F, 22 (14.8, 25.2) l h−1 70 kg−1; Vc/F, 45.4 (29.6, 55.6) l; Vp/F, 411 (152.6, 1472.6)l; Q/F, 22.4 (16.0, 32.5) l h−1; Ka, 2.5 (1.45, 4.93) h−1. Covariate analysis in the PK study identified body weight to be significantly correlated with CL/F. A simplified inhibitory Emax model adequately described the relationship between MPA concentration and IMPDH activity. The final population PK−PD parameter estimates (and their 95% confidence intervals) were: E0, 3.45 (2.61, 4.56) nmol h−1 mg−1 protein and EC50, 1.73 (1.16, 3.01) mg l−1. Emax was fixed to 0. There were two African‐American patients in our study cohorts and both had low IMPDH baseline activities (E0) compared with Caucasian patients (mean value 2.13 mg l−1 vs. 3.86 mg l−1). Conclusion An integrated population PK−PD model of MPA has been developed in paediatric renal transplant recipients. The current model provides information that will facilitate future studies and may be implemented in a Bayesian algorithm to allow a PK−PD guided therapeutic drug monitoring strategy.
Sirolimus is an inhibitor of mammalian target of rapamycin (mTOR) and is increasingly being used in transplantation and cancer therapies. Sirolimus has low oral bioavailability and exhibits large pharmacokinetic variability. The underlying mechanisms for this variability have not been explored to a large extent. Sirolimus metabolism was characterized by in vitro intrinsic clearance estimation. Pathway contribution ranked from CYP3A4 > CYP3A5 > CYP2C8. With the well stirred and Qgut models sirolimus bioavailability was predicted at 15%. Interindividual differences in bioavailability could be attributed to variable intestinal CYP3A expression. The physiologically-based pharmacokinetics (PBPK) model developed in Simcyp predicted a high distribution of sirolimus into adipose tissue and another elimination pathway in addition to CYP-mediated metabolism. PBPK model predictive performance was acceptable with Cmax and area under the curve (AUC) estimates within 20% of observed data in a dose escalation study. The model also showed potential to assess the impact of hepatic impairment and drug–drug interaction (DDI) on sirolimus pharmacokinetics.
Background-Mycophenolic acid (MPA) is the active form of mycophenolate mofetil (MMF) which is currently used off-label as immunosuppressive therapy in childhood-onset SLE (cSLE). The objectives of this study were to (1) characterize the pharmacokinetics (MPA-PK) and pharmacodynamics (MPA-PD) of MPA and (2) explore the relationship between MPA-PK and cSLE disease activity.
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