Hara, Toshihiko published the artcileDevelopment of 18F-fluoroethylcholine for cancer imaging with PET: synthesis, biochemistry, and prostate cancer imaging, Related Products of catalysis-chemistry, the publication is Journal of Nuclear Medicine (2002), 43(2), 187-199, database is CAplus and MEDLINE.
The effectiveness of 11C-choline PET in detecting various cancers, including prostate cancer, is well established. This study was aimed at developing an 18F-substituted choline analog, 18F-fluoroethylcholine (FECh), as a tracer of cancer detection. Methods: No-carrier-added 18F-FECh was synthesized by 2-step reactions: First, tetrabutylammonium (TBA) 18F-fluoride was reacted with 1,2-bis(tosyloxy)ethane to yield 2-18F-fluoroethyl tosylate; and second, 2-18F-fluoroethyl tosylate was reacted with N,N-dimethylethanolamine to yield 18F-FECh, which was then purified by chromatog. An automated apparatus was constructed for preparation of the 18F-FECh injection solution In vitro experiments were performed to examine the uptake of 18F-FECh in Ehrlich ascites tumor cells, and the metabolites were analyzed by solvent extraction followed by various kinds of chromatog. Clin. studies of 18F-FECh PET were performed on patients with untreated primary prostate cancer as follows: A dynamic 18F-FECh PET study was performed on 1 patient and static PET studies were performed on 16 patients, and the data were compared with those of 11C-choline PET on the same patients. Results: 18F-FECh was prepared in high yield and purity. The performance of the automated apparatus was excellent. The in vitro experiment revealed that 18F-FECh was incorporated into tumor cells by active transport, then phosphorylated (yielding phosphoryl-18F-FECh) in the cells, and finally integrated into phospholipids. The clin. PET studies showed marked uptake of 18F-FECh in prostate cancer. A dynamic PET study on 1 patient revealed that the blood level of 18F-FECh decreased rapidly (in 1 min), the prostate cancer level became almost maximal in a short period (1.5 min) and it remained constant for a long time (60 min), and the urinary radioactivity became prominent after a short time lag (5 min). Static PET studies conducted under bladder irrigation showed no difference between 18F-FECh uptake and 11C-choline uptake in prostate cancer. However, 18F-FECh gave a slightly higher spatial resolution of the image, which was attributed to the shorter positron range of 18F. Conclusion: The synthesis of 18F-FECh was easy and reliable. 18F-FECh PET was very effective in detecting prostate cancer in patients. The chem. trap, consisting of active transport of 18F-FECh and formation of phosphoryl-18F-FECh, seemed to be involved in the uptake mechanism of 18F-FECh in tumors.
Journal of Nuclear Medicine published new progress about 17351-62-1. 17351-62-1 belongs to catalysis-chemistry, auxiliary class Salt,Amine, name is Tetrabutylammonium hydrogencarbonate, and the molecular formula is C17H37NO3, Related Products of catalysis-chemistry.
Referemce:
https://courses.lumenlearning.com/boundless-chemistry/chapter/catalysis/,
Catalysis – Wikipedia