Pharmacokinetic–Pharmacodynamic Modeling in Pediatric Drug Development, and the Importance of Standardized Scaling of Clearance

Germovsek, Eva; Barker, Charlotte I. S.; Sharland, Mike; Standing, Joseph F.

doi:10.1007/s40262-018-0659-0

Cited by 63 publications

(82 citation statements)

References 142 publications

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“…PopPK modeling combined with sparse sampling is widely used to characterize drug disposition in neonates and children . Implementing allometric scaling for size in addition to a sigmoidal function accounting for organ maturation may be able to distinguish age and size effects on clearance from other patient‐specific factors, including DDIs . If a concomitant drug is identified as a significant predictor of variability in a PK parameter, simulations can be performed to optimize dosing for children receiving the drug combination.…”

Section: Opportunities For Evaluating Pediatric Ddismentioning

confidence: 99%

“…7 Implementing allometric scaling for size in addition to a sigmoidal function accounting for organ maturation may be able to distinguish age and size effects on clearance from other patientspecific factors, including DDIs. 8 If a concomitant drug is identified as a significant predictor of variability in a PK parameter, simulations can be performed to optimize dosing for children receiving the drug combination. PBPK modeling, which integrates physiological information along with drug-specific properties to predict drug disposition throughout the body, can facilitate the evaluation of potential pediatric DDIs.…”

Section: Opportunities For Evaluating Pediatric Ddis Modeling and Simmentioning

confidence: 99%

See 1 more Smart Citation

Pediatric Drug–Drug Interaction Studies: Barriers and Opportunities

Salerno

Burckart

Huang

et al. 2018

Clin Pharma and Therapeutics

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Section: Opportunities For Evaluating Pediatric Ddismentioning

confidence: 99%

Section: Opportunities For Evaluating Pediatric Ddis Modeling and Simmentioning

confidence: 99%

Pediatric Drug–Drug Interaction Studies: Barriers and Opportunities

Salerno

Burckart

Huang

et al. 2018

Clin Pharma and Therapeutics

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“…. Most of these studies used small sample sizes or focused on pediatric subpopulations, such as neonates, meaning parameter comparisons between studies is challenging, not least because important covariates, such as age and weight, are often not parameterized in a standard way (13). Moreover, vancomycin distribution often requires two and, in some cases, three disposition compartments (14), although most pediatric vancomycin PK papers have previously reported a one-compartment model (2)(3)(4)(5)(6)(7).…”

mentioning

confidence: 99%

Revising Pediatric Vancomycin Dosing Accounting for Nephrotoxicity in a Pharmacokinetic-Pharmacodynamic Model

Kloprogge

Hill

Booth

et al. 2019

Antimicrob Agents Chemother

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This study aimed to suggest an initial pediatric vancomycin dose regimen through population pharmacokinetic-pharmacodynamic modeling. A population pharmacokinetic approach was used to analyze vancomycin concentration-time data from a large pediatric cohort. Pharmacokinetic target attainment for patients with bloodstream isolates was compared with clinical outcome using logistic regression and classification and regression trees. Change in serum creatinine during treatment was used as an indicator of acute nephrotoxicity. Probability of acute kidney injury (50% increase from baseline) or kidney failure (75% increase from baseline) was evaluated using logistic regression. An initial dosing regimen was derived, personalized by age, weight, and serum creatinine, using stochastic simulations. Data from 785 hospitalized pediatric patients (1 day to 21 years of age) with suspected Gram-positive infections were collected. Estimated (relative standard error) typical clearance, volume of distribution 1, intercompartmental clearance, and volume of distribution 2 were (standardized to 70 kg) 4.84 (2.38) liters/h, 39.9 (8.15) liters, 3.85 (17.3) liters/h, and 37.8 (10.2) liters, respectively. While cumulative vancomycin exposure correlated positively with the development of nephrotoxicity (713 patients), no clear relationship between vancomycin area under the plasma concentration-time curve and efficacy was found (102 patients). Predicted probability of acute kidney injury and kidney failure with the optimized dosing regimen at day 5 was 10 to 15% and 5 to 10%, increasing by approximately 50% on day 7 and roughly 100% on day 10 across all age groups. This study presents the first data-driven pediatric dose selection to date accounting for nephrotoxicity, and it indicates that cumulative vancomycin exposure best describes risk of acute kidney injury and acute kidney failure.

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“…All the ontogeny equations used in the current study were driven by postnatal age. Postmenstrual age is more useful if preterm neonates are included in PBPK simulations (Abduljalil et al, 2019;Germovsek et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

Implementation of a Physiologically Based Pharmacokinetic Modeling Approach to Guide Optimal Dosing Regimens for Imatinib and Potential Drug Interactions in Paediatrics

2020

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Long-term use of imatinib is effective and well-tolerated in children with chronic myeloid leukaemia (CML) yet defining an optimal dosing regimen for imatinib in younger patients is a challenge. The potential interactions between imatinib and coadministered drugs in this "special" population also remains largely unexplored. This study implements a physiologically based pharmacokinetic (PBPK) modeling approach to investigate optimal dosing regimens and potential drug interactions with imatinib in the paediatric population. A PBPK model for imatinib was developed in the Simcyp Simulator (version 17) utilizing in silico, in vitro drug metabolism, and in vivo pharmacokinetic data and verified using an independent set of published clinical pharmacokinetic data. The model was then extrapolated to children and adolescents (aged 2-18 years) by incorporating developmental changes in organ size and maturation of drug-metabolising enzymes and plasma protein responsible for imatinib disposition. The PBPK model described imatinib pharmacokinetics in adult and paediatric populations and predicted drug interaction with carbamazepine, a cytochrome P450 (CYP)3A4 and 2C8 inducer, with a good accuracy (evaluated by visual inspections of the simulation results and predicted pharmacokinetic parameters that were within 1.25-fold of the clinically observed values). The PBPK simulation suggests that the optimal dosing regimen range for imatinib is 230-340 mg/m 2 /d in paediatrics, which is supported by the recommended initial dose for treatment of childhood CML. The simulations also highlighted that children and adults being treated with imatinib have similar vulnerability to CYP modulations. A PBPK model for imatinib was successfully developed with an excellent performance in predicting imatinib pharmacokinetics across age groups. This PBPK model is beneficial to guide optimal dosing regimens for imatinib and predict drug interactions with CYP modulators in the paediatric population.

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Pharmacokinetic–Pharmacodynamic Modeling in Pediatric Drug Development, and the Importance of Standardized Scaling of Clearance

Cited by 63 publications

References 142 publications

Pediatric Drug–Drug Interaction Studies: Barriers and Opportunities

Pediatric Drug–Drug Interaction Studies: Barriers and Opportunities

Revising Pediatric Vancomycin Dosing Accounting for Nephrotoxicity in a Pharmacokinetic-Pharmacodynamic Model

Implementation of a Physiologically Based Pharmacokinetic Modeling Approach to Guide Optimal Dosing Regimens for Imatinib and Potential Drug Interactions in Paediatrics

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