Determinants of variability in clearance of exogenous compounds in neonates.

Although the general principles of disposition and elimination of exogenous compounds apply in neonates, their specific characteristics warrant a tailored approach. Children display maturation in drug disposition, and these maturational changes are most prominent in the first year of life. Elimination clearance is mainly either through metabolic or renal elimination clearance. Almost all phase I and phase II metabolic processes display ontogeny in a iso-enzyme specific pattern. Variation in phenotypic metabolic clearance is based on constitutional, environmental and genetics factors. In early life, it mainly reflects ontogeny, but other covariates may also become relevant. The impact of various covariates like postmenstrual age, postnatal age, disease state characteristics and polymorphisms are illustrated based or 'probe' drugs (paracetamol, tramadol, propofol) administered as part of their medical treatment in critically ill neonates. Renal elimination clearance in early life is low and almost completely depends on glomerular filtration. Despite this overall low clearance, interindividual variability is already extensive and can be explained by covariates like postmenstrual age, postnatal age, co-administration of a non-selective cyclo-oxygenase inhibitor or growth restriction. These findings are illustrated by observations on amikacin, vancomycin and cefazolin disposition in perinatal life. These maturational changes all have impact on the pharmaco/toxicokinetics and -dynamics. We hereby would like to extent the adagio of Paracelsus that 'all is toxic, it only depends on the dose' by making the point that the 'patient' is also relevant.