Expert review of clinical pharmacology
-
Expert Rev Clin Pharmacol · Nov 2011
ReviewPharmacokinetics and pharmacodynamics of intravenous acetaminophen in neonates.
Effective analgesia in neonates is still hampered owing to a lack of data on pharmacokinetics and pharmacodynamics of analgesics. In this article, the consecutive steps taken to document aspects of disposition (pharmacokinetics and metabolism) and safety (hepatic tolerance, hemodynamic stability and effects on body temperature) during exposure to intravenous acetaminophen in neonates are summarized. Based on these data, dosing suggestions were formulated. ⋯ In addition, the number of observations in extreme preterm neonates is limited. Finally, epidemiological data suggest a link between perinatal acetaminophen exposure and an increased risk to developing asthma. Consequently, well designed and appropriately powered pharmacodynamic studies in neonates are urgently required, with specific emphasis on extreme preterm neonates.
-
Expert Rev Clin Pharmacol · Nov 2011
ReviewPharmacokinetic-pharmacodynamic modeling in acute and chronic pain: an overview of the recent literature.
In acute and chronic pain, the objective of pharmacokinetic-pharmacodynamic (PKPD) modeling is the development and application of mathematical models to describe and/or predict the time course of the pharmacokinetics (PK) and pharmacodynamics (PD) of analgesic agents and link PK to PD. Performing population PKPD modeling using nonlinear mixed effects modeling allows, apart from the estimation of fixed effects (the PK and PD model estimates), the quantification of random effects as within- and between-subject variability. Effect-compartment models and mechanism-based biophase distribution models that incorporate drug-association and -dissociation kinetics are applied in PKPD modeling of pain treatment. ⋯ Mixture models do not necessarily need to take PK data into account and allow the objective differentiation of measured responses to analgesics into specific response subgroups, and as such, may play an important role in analyzing Phase I and II analgesia studies. Appropriate application of PKPD modeling leads to the improvement of current therapeutics with respect to dose design and outcome, understanding the interaction of analgesics within complex chronic pain disease processes and may play an important role in drug development. In the current article, novel observations using the aforementioned techniques on opioids, NSAIDs, epidural analgesia, ketamine and GABA-ergic drugs in acute and chronic pain are discussed.