Diana F Clarke1, Mark Mirochnick2, Edward P Acosta3, Edmund Capparelli4, Anne Chain5, Hedy Teppler5, Betsy Smith6, Jos Lommerse7. 1. Section of Pediatric Infectious Diseases, Department of Pediatrics, Boston Medical Center, Boston, MA. 2. Division of Neonatology, Department of Pediatrics, Boston University School of Medicine, Boston, MA. 3. Division of Clinical Pharmacology, Department of Pharmacology and Toxicology, University of Alabama at Birmingham, Birmingham, AL. 4. Skaggs School of Pharmacy and Pharmaceutical Sciences, University of California, San Diego, San Diego, CA. 5. Clinical Research-Infectious Diseases, Merck & Co., Inc., Kenilworth, NJ. 6. Maternal, Pediatric, and Research Branch, Division of AIDS, National Institute of Health, Bethesda, MD. 7. PK/PD Modeling and Simulation, Certara Strategic Consulting, Oss, The Netherlands.
Abstract
BACKGROUND: Population modeling and simulations can be used to facilitate the conduct of phase I studies to develop safe and effective dosing regimens in neonates. SETTING: P1110 is an international, multicenter trial to determine safe and effective raltegravir doses in neonates at risk for HIV infection. METHODS: P1110 used a 2-cohort adaptive design incorporating population pharmacokinetic modeling and simulations. An initial cohort of neonates received 2 single oral doses of raltegravir with standard-of-care therapy for prevention of perinatal transmission-one within 48 hours of birth and a second at 7-10 days of life. Raltegravir concentration data after administration of these doses were combined with data from a previous study of infants aged 4 weeks to 2 years. The combined database was used for population pharmacokinetic modeling and simulations to select a daily dosing regimen for investigation in a second cohort of neonates. RESULTS: Raltegravir concentration data from 6 neonates were combined with data from infants aged 4 weeks to 2 years receiving raltegravir twice daily. The combined data set allowed for successful development of a population pharmacokinetic model with reasonable precision of parameter estimates. Monte Carlo simulations were run to evaluate potential daily dosing regimens from birth to 6 weeks of age, allowing for selection of a regimen to be evaluated in a subsequent cohort of neonates receiving chronic raltegravir dosing. CONCLUSIONS: An adaptive design incorporating population pharmacokinetic modeling and simulations was used to select a developmentally appropriate neonatal raltegravir dosing regimen in the first 6 weeks of life.
BACKGROUND: Population modeling and simulations can be used to facilitate the conduct of phase I studies to develop safe and effective dosing regimens in neonates. SETTING:P1110 is an international, multicenter trial to determine safe and effective raltegravir doses in neonates at risk for HIV infection. METHODS:P1110 used a 2-cohort adaptive design incorporating population pharmacokinetic modeling and simulations. An initial cohort of neonates received 2 single oral doses of raltegravir with standard-of-care therapy for prevention of perinatal transmission-one within 48 hours of birth and a second at 7-10 days of life. Raltegravir concentration data after administration of these doses were combined with data from a previous study of infants aged 4 weeks to 2 years. The combined database was used for population pharmacokinetic modeling and simulations to select a daily dosing regimen for investigation in a second cohort of neonates. RESULTS:Raltegravir concentration data from 6 neonates were combined with data from infants aged 4 weeks to 2 years receiving raltegravir twice daily. The combined data set allowed for successful development of a population pharmacokinetic model with reasonable precision of parameter estimates. Monte Carlo simulations were run to evaluate potential daily dosing regimens from birth to 6 weeks of age, allowing for selection of a regimen to be evaluated in a subsequent cohort of neonates receiving chronic raltegravir dosing. CONCLUSIONS: An adaptive design incorporating population pharmacokinetic modeling and simulations was used to select a developmentally appropriate neonatal raltegravir dosing regimen in the first 6 weeks of life.
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