Dopaminergic receptor properties in the striatum of patients with Parkinson's disease (PD) and Huntington's chorea (HD) were studied by positron emission tomography (PET), using 11C-N-methyl-spiperone as a dopamine D2 receptor ligand. The time-dependent regional radioactive uptake in the caudate nucleus and the putamen was measured and fitted to a 3-compartment pharmacokinetic model. The rate constant k3 for specific binding to the receptor compartment in the striatum was determined in relation to the binding in regions with a low density of specific binding sites, such as the cerebellum and the frontal cortex . k3, which is a measure of the receptor density, was reduced in one patient with HD but less affected in PD in comparison with healthy controls. The pattern of k3 values calculated from the 6 PD patients is discussed in relation to any side-to-side differences in dopamine receptor densities in hemiparkinsonism and to possible "hypersensitivity" of dopamine receptors in the early stage of the disease and down-regulation in more advanced disease.
The pharmacokinetics of 2 mg ketotifen from four different oral dosage forms were examined in two randomized, balanced cross-over studies. Forty healthy male subjects participated. Each of 20 subjects received two capsule formulations and each of the other 20 subjects received two syrup formulations. Ketotifen concentrations in plasma were determined by a modified GC-MS method. The limit of quantitation was 40 pg ml-1. Inter-day precision and accuracy calculated from quality control samples were 16.3 per cent (-1.9 per cent), 19.8 per cent (+4.5 per cent) and 23.6 per cent (+5.9 per cent) at plasma concentration levels of 86 (n = 18), 215 (n = 19) and 343 (n = 18) pg ml-1, respectively. Ketotifen was rapidly absorbed from all dosage forms reaching Cmax in the order of 400 pg ml-1 after the syrup formulations and 300 pg ml-1 after the capsule formulations within 2 to 4 h. The syrup formulations showed a significantly more rapid rate of absorption as assessed by Tmax. No significant differences in extent of absorption between dosage forms were observed. The terminal elimination half-life of ketotifen varied between subjects from 7 to 27 hours with a mean of about 12 h. The minor pharmacokinetic difference between dosage forms observed in this study is unlikely to be of clinical significance.
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