James H. Edge scite author profile

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.

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Pharmacokinetic Comparison of Acetaminophen Elixir Versus Suppositories in Vaccinated Infants (Aged 3 to 36 Months): A Single-Dose, Open-Label, Randomized, Parallel-Group Design

Walson¹,

Halvorsen²,

Edge³

et al. 2013

Clinical Therapeutics

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Clonazepam Disposition in Pediatric Patients

Walson

Edge

1996

Therapeutic Drug Monitoring

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Plasma clonazepam (CZP) and its metabolite [7-aminoclonazepam (7ACZP) and 7-acetamidoclonazepam (7AACZP)] concentrations were measured during a single dosing interval in 10 pediatric epilepsy patients (2-18 years, 11-102 kg) who had been receiving CZP therapeutically from 2 weeks to 4 years. These concentrations were used to determine CZP and metabolite pharmacokinetics. With controlled dosing and postdose sample collection times, large variations were observed in calculated CZP nitroreduction rates [clearance (CL/F) ranged from 7 to 64 ml/h/kg] as well as 7ACZP acetylation rates (CL/F from 10 to 85 ml/h/kg). No 7AACZP (i.e., < 5 ng/ml) was detected by the methods used. Acetylation rates are known to be under genetic control. Further studies are needed to determine whether nitroreduction rates are also under genetic control and whether differences in either of these metabolic rates can explain intraindividual differences in clinical responses observed in CZP-treated patients.

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Anticonvulsant tolerance to clonazepam in amygdala kindled rats: Clonazepam concentrations and benzodiazepine receptor binding

et al. 1994

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James H. Edge

Pharmacokinetics and pharmacodynamics of ibuprofen isomers and acetaminophen in febrile children

Pharmacokinetic Comparison of Acetaminophen Elixir Versus Suppositories in Vaccinated Infants (Aged 3 to 36 Months): A Single-Dose, Open-Label, Randomized, Parallel-Group Design

Clonazepam Disposition in Pediatric Patients

Anticonvulsant tolerance to clonazepam in amygdala kindled rats: Clonazepam concentrations and benzodiazepine receptor binding

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