Abstract

[ 11 C]Raclopride binding to central D 2 -dopamine receptors in humans has previously been examined by positron emission tomography (PET). Based on the rapid occurrence of binding equilibrium, a saturation analysis has been developed for the determination of receptor density ( B max ) and affinity ( K d ). For analysis of PET measurements obtained with other ligands, a kinetic three-compartment model has been used. In the present study, the brain uptake of [ 11 C]raclopride was analyzed further by applying both a kinetic and an equilibrium analysis to data obtained from four PET experiments in each of three healthy subjects. First regional CBV was determined. In the second and third experiment, [ 11 C]-raclopride with high and low specific activity was used. In a fourth experiment, the [ 11 C]raclopride enantiomer [ 11 C]FLB472 was used to examine the concentration of free radioligand and nonspecific binding in brain. Radio-activity in arterial blood was measured using an automated blood sampling system. B max and K d values for [ 11 C]raclopride binding could be determined also with the kinetic analysis. As expected theoretically, those values were similar to those obtained with the equilibrium analysis. In addition, the kinetic analysis allowed separate determination of the association and dissociation rate constants, k on and k off , respectively. Examination of [ 11 C]raclopride and [ 11 C]FLB472 uptake in brain regions devoid of specific D 2 -dopamine receptor binding indicated a fourth compartment in which uptake was reversible, nonstereoselective, and nonsaturable in the dose range studied.