Daniel W. McPherson

[18F]-N-methylspiroperidol: The radioligand of choice for pett studies of the dopamine receptor in human brain

N-Methylspiroperidol, the amide N-methyl analogue of the neuroleptic spiroperidol, was radiolabeled with fluorine-18, and its distribution in the baboon brain was studied using positron emission transaxial tomography. Stereospecific binding was demonstrated in the striatum (but not in the cerebellum) by pretreatment with (-)- or (+)-butaclamol. The kinetic distribution was similar to that of [18F]spiroperidol, but the absolute striatal uptake (in percent of administered dose) was at least two-fold higher. Analysis of baboon blood at 10 min after injection indicated that less than half of the radioactivity in the plasma was due to unchanged radioligand. Analysis of the metabolic stability of [18F]-N-methylspiroperidol in rat brain for 4 hr indicated that, like [18F]spiroperidol, it is very stable to metabolic transformation in the rat central nervous system. Striatal uptake and retention in the rat was five-fold higher for [18F]-N-methylspiroperidol than for [18F]spiroperidol. These results suggest that [18F]-N-methylspiroperidol is an ideal choice for studies of the dopamine receptor in humans.

A comparison of the brain uptake of N-(cyclopropyl[11C]methyl)norbuprenorphine ([11C]buprenorphine) and N-(cyclopropyl[11C]methyl)nordiprenorphme ([11C]diprenorphine) in baboon using PET

Buprenorphine and diprenorphine were radiolabeled with 11C and their distributions in the baboon brain were studied using positron emission tomography (PET). Specific binding was demonstrated in the striatum (but not in the cerebellum) by pretreating the baboon with (-)naloxone. The absolute striatal uptakes and time courses were similar for these two radioligands but the ratio of radioactivity in the striatum to cerebellum in the baboon was higher for [11C]diprenorphine than for [11C]buprenorphine. Analysis of baboon plasma indicated that both [11C]diprenorphine and [11C]buprenorphine are rapidly metabolized. Analysis of radioactivity in mouse brain indicated that these two radioligands are stable to metabolic transformation. At 30 min after injection, 86-90% of extracted radioactivity was due to unchanged 11C-labeled radioligands. These results suggest that both [11C]diprenorphine and [11C]buprenorphine may be useful radioligands for studying opioid receptors in humans, although [11C]diprenorphine may be a better radioligand than [11C]buprenorphine for this purpose because of its more rapid clearance from the cerebellum.

No-carrier-added [111 c]putrescine

The invention relates to a new radiolabeled imaging agent, no-carrier-added [1-11 C]putrescine, and to the use of this very pure material as a radiotracer with positron emission tomography for imaging brain tumors. The invention further relates to the synthesis of no-carrier-added [1-11 C]putrescine based on the Michael addition of potassium 11 C-labeled cyanide to acrylonitrile followed by reduction of the 11 C-labeled dinitrile. The new method is rapid and efficient and provides radiotracer with a specific activity greater than 1.4 curies per millimol and in a purity greater than 95%.