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Critical care medicine · Apr 2019
Midazolam Dose Optimization in Critically Ill Pediatric Patients With Acute Respiratory Failure: A Population Pharmacokinetic-Pharmacogenomic Study.
- Athena F Zuppa, Daniela J Conrado, Nicole R Zane, Curley Martha A Q MAQ Family and Community Heath, University of Pennsylvania School of Nursing, Philadelphia, PA. , Jonathan Bradfield, Hakon Hakonarson, Madeleine S Gastonguay, Ganesh Moorthy, Janice Prodell, and Marc R Gastonguay.
- Department of Pediatric Anesthesia and Critical Care Medicine, Children's Hospital of Philadelphia, Philadelphia, PA.
- Crit. Care Med. 2019 Apr 1; 47 (4): e301-e309.
ObjectivesTo develop a pharmacokinetic-pharmacogenomic population model of midazolam in critically ill children with primary respiratory failure.DesignProspective pharmacokinetic-pharmacogenomic observational study.SettingThirteen PICUs across the United States.PatientsPediatric subjects mechanically ventilated for acute respiratory failure, weight greater than or equal to 7 kg, receiving morphine and/or midazolam continuous infusions.InterventionsSerial blood sampling for drug quantification and a single blood collection for genomic evaluation.Measurements And Main ResultsConcentrations of midazolam, the 1' (1`-hydroxymidazolam metabolite) and 4' (4`-hydroxymidazolam metabolite) hydroxyl, and the 1' and 4' glucuronide metabolites were measured. Subjects were genotyped using the Illumina HumanOmniExpress genome-wide single nucleotide polymorphism chip. Nonlinear mixed effects modeling was performed to develop the pharmacokinetic-pharmacogenomic model. Body weight, age, hepatic and renal functions, and the UGT2B7 rs62298861 polymorphism are relevant predictors of midazolam pharmacokinetic variables. The estimated midazolam clearance was 0.61 L/min/70kg. Time to reach 50% complete mature midazolam and 1`-hydroxymidazolam metabolite/4`-hydroxymidazolam metabolite clearances was 1.0 and 0.97 years postmenstrual age. The final model suggested a decrease in midazolam clearance with increase in alanine transaminase and a lower clearance of the glucuronide metabolites with a renal dysfunction. In the pharmacogenomic analysis, rs62298861 and rs28365062 in the UGT2B7 gene were in high linkage disequilibrium. Minor alleles were associated with a higher 1`-hydroxymidazolam metabolite clearance in Caucasians. In the pharmacokinetic-pharmacogenomic model, clearance was expected to increase by 10% in heterozygous and 20% in homozygous for the minor allele with respect to homozygous for the major allele.ConclusionsThis work leveraged available knowledge on nonheritable and heritable factors affecting midazolam pharmacokinetic in pediatric subjects with primary respiratory failure requiring mechanical ventilation, providing the basis for a future implementation of an individual-based approach to sedation.
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