Opportunistic dried blood spot sampling validates and optimizes a pediatric population pharmacokinetic model of metronidazole.
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2024-04
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Pharmacokinetic models rarely undergo external validation in vulnerable populations such as critically ill infants, thereby limiting the accuracy, efficacy, and safety of model-informed dosing in real-world settings. Here, we describe an opportunistic approach using dried blood spots (DBS) to evaluate a population pharmacokinetic model of metronidazole in critically ill preterm infants of gestational age (GA) ≤31 weeks from the Metronidazole Pharmacokinetics in Premature Infants (PTN_METRO, NCT01222585) study. First, we used linear correlation to compare 42 paired DBS and plasma metronidazole concentrations from 21 preterm infants [mean (SD): post natal age 28.0 (21.7) days, GA 26.3 (2.4) weeks]. Using the resulting predictive equation, we estimated plasma metronidazole concentrations (ePlasma) from 399 DBS collected from 122 preterm and term infants [mean (SD): post natal age 16.7 (15.8) days, GA 31.4 (5.1) weeks] from the Antibiotic Safety in Infants with Complicated Intra-Abdominal Infections (SCAMP, NCT01994993) trial. When evaluating the PTN_METRO model using ePlasma from the SCAMP trial, we found that the model generally predicted ePlasma well in preterm infants with GA ≤31 weeks. When including ePlasma from term and preterm infants with GA >31 weeks, the model was optimized using a sigmoidal Emax maturation function of postmenstrual age on clearance and estimated the exponent of weight on volume of distribution. The optimized model supports existing dosing guidelines and adds new data to support a 6-hour dosing interval for infants with postmenstrual age >40 weeks. Using an opportunistic DBS to externally validate and optimize a metronidazole population pharmacokinetic model was feasible and useful in this vulnerable population.
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Randell, Rachel L, Stephen J Balevic, Rachel G Greenberg, Michael Cohen-Wolkowiez, Elizabeth J Thompson, Saranya Venkatachalam, Michael J Smith, Catherine Bendel, et al. (2024). Opportunistic dried blood spot sampling validates and optimizes a pediatric population pharmacokinetic model of metronidazole. Antimicrobial agents and chemotherapy, 68(4). p. e0153323. 10.1128/aac.01533-23 Retrieved from https://hdl.handle.net/10161/33588.
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Scholars@Duke
Rachel Leigh Randell
Stephen Joseph Balevic
I am an Adult and Pediatric Rheumatologist and care for patients with a wide variety of autoimmune and rheumatic diseases, including: systemic lupus, rheumatoid arthritis, juvenile arthritis, vasculitis, and sarcoidosis, among others. I have a special interest in using musculoskeletal ultrasound to optimize diagnosis and treatment decisions at the bedside.
I am also a clinical researcher at the Duke Clinical Research Institute (DCRI). My research interests are in clinical trials and precision medicine through population pharmacokinetic/pharmacodynamic modeling. I obtained my PhD in Pharmaceutical Sciences from the UNC Eshelman School of Pharmacy. I serve as the principal investigator on several grants studying hydroxychloroquine and azathioprine pharmacokinetics and exposure-response in lupus, as well as principal investigator or co-investigator for several clinical trials at the DCRI. Additionally, I am an Assistant Scientific Director for the Childhood Arthritis and Rheumatology Research Alliance (CARRA) Registry- the largest registry of children with rheumatic diseases in North America.
Rachel Gottron Greenberg
Rachel G. Greenberg, MD, MB, MHS is a neonatologist and Professor of Pediatrics at Duke University Medical Center and Duke Clinical Research Institute. Dr. Greenberg’s research focuses on improving safety and efficacy of drugs in infants and children, particularly through her efforts as a Principal Investigator and Steering Committee Chair for the NICHD-funded Pediatric Trials Network. She is also alternate PI of the North Carolina clinical Center for the Neonatal Research Network and PI of the NICHD-funded HEAL KIDS Pain Resource and Data Center. In addition, she has been principal investigator of multiple trials funded by the U.S. Food and Drug Administration, Centers for Disease Control, and National Institutes of Health.
Michael Cohen-Wolkowiez
Pediatric and adult clinical pharmacology and clinical trials.
Michael Joseph Smith
I am the division chief of Pediatric Infectious Diseases at Duke. My clinical and research efforts focus on the prevention and treatment of infections in children. My specific areas of interest are pediatric antimicrobial stewardship and vaccine safety. I am currently Duke PI for a PCORI-funded project assessing outpatient antibiotic use for respiratory tract infections in children at Duke University Health System and serve as Co-Director of the Duke Vaccine and Trials Unit.
Chi Hornik
Chi Hornik is the Director of Heart Center Research and the Director of Critical Care Medicine Research in the Department of Pediatrics. She is an Associate Professor in the Duke School of Medicine and a member of the Duke Clinical Research Institute (DCRI). She serves as Principal Investigator (PI) of Duke as a site for numerous studies and as clinical coordinating center PI of multi-center trials through the DCRI. As a clinical specialist in neonatal and pediatric critical care, she is dedicated to advancing drug and device development. She ensures that the research encompasses patients who are representative of the disease or condition being studied. Her commitment is to advance health outcomes for all children, striving for equity in clinical research.
Christoph Paul Vincent Hornik
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