Quantitation of extrastriatal D2 receptors using a very high-affinity ligand (FLB 457) and the multi-injection approach

The multi-injection approach has been used to study in baboon the in vivo i nteractions between the D2 receptor sites and FLB 457, a ligand with a very high affinity for these receptors. The model structure was composed of fou r compartments (plasma, free ligand, and specifically and unspecifically bo und ligands) and seven parameters (including the D2 receptor site density). The arterial plasma concentration, after correction for metabolites, was u sed as the input function. The experimental protocol, which consisted of th ree injections of labeled and/or unlabeled ligand, allowed the evaluation o f all model parameters from a single positron emission tomography experimen t. In particular, the concentration of receptor sites available for binding (B-max') and the apparent in vivo FLB 457 affinity were estimated in seven brain regions, including the cerebellum and several cortex regions, in whi ch these parameters are estimated ill vivo for the first time (B-max' is es timated to be 4.0 +/- 1.3 pmol/ml in the thalamus and from 0.32 to 1.90 pmo l/ml in the cortex). A low receptor density was found in the cerebellum (B- max' = 0.39 +/- 0.17 pmol/ml), whereas the cerebellum is usually used as a reference region assumed to be devoid of D2 receptor sites. in spite of thi s very small concentration (1% of the striatal concentration), and because of the high affinity of the ligand, we demonstrated that after a tracer inj ection, most of the PET-measured radioactivity in the cerebellum results fr om the labeled ligand bound to receptor sites. The estimation of all the mo del parameters allowed simulations that led to a precise knowledge of the F LB 457 kinetics in all brain regions and gave the possibility of testing th e equilibrium hypotheses and estimating the biases introduced by the usual simplified approaches.