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      Iodonium ylides for one-step, no-carrier-added radiofluorination of electron rich arenes, exemplified with 4-(([18F]fluorophenoxy)-phenylmethyl)piperidine NET and SERT ligands

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          Abstract

          Iodonium ylide precursors of electron rich arenes, i.e. the NET and SERT ligands 4-((3- and 4-fluorophenoxy)phenylmethyl)piperidine, served as model compounds for the direct substitution with n.c.a. [ 18F]fluoride.

          Abstract

          Iodonium ylide precursors of electron rich arenes, i.e. the NET and SERT ligands 4-((3- and 4-fluorophenoxy)phenylmethyl)piperidine, served as model compounds for the direct substitution with n.c.a. [ 18F]fluoride. Good radiochemical yields of about 20% were obtained in reaction times of ca. 130 minutes with a molar activity of the labelled ligands of more than 50 GBq μmol −1. Those failed as in vivo probes in first evaluation studies. Several important insights, however, were gained into the reaction of ylides, e.g. an unexpected formation of regioisomers. The results clearly demonstrate that aryliodonium ylides are a promising alternative to the well-known diaryliodonium salts for the direct preparation of complex, electron rich n.c.a. [ 18F]fluoroarenes.

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          Synthesis of 11C, 18F, 15O, and 13N radiolabels for positron emission tomography.

          Philip Miller, Nicholas Long, Ramon Vilar (2008)
          Positron emission tomography (PET) is a powerful and rapidly developing area of molecular imaging that is used to study and visualize human physiology by the detection of positron-emitting radiopharmaceuticals. Information about metabolism, receptor/enzyme function, and biochemical mechanisms in living tissue can be obtained directly from PET experiments. Unlike magnetic resonance imaging (MRI) or computerized tomography (CT), which mainly provide detailed anatomical images, PET can measure chemical changes that occur before macroscopic anatomical signs of a disease are observed. PET is emerging as a revolutionary method for measuring body function and tailoring disease treatment in living subjects. The development of synthetic strategies for the synthesis of new positron-emitting molecules is, however, not trivial. This Review highlights key aspects of the synthesis of PET radiotracers with the short-lived positron-emitting radionuclides (11)C, (18)F, (15)O, and (13)N, with emphasis on the most recent strategies.
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            Reactions of cyclotron-produced [18F]fluoride with diaryliodonium salts—a novel single-step route to no-carrier-added [18]fluoroarenes

            Victor Pike, Franklin I. Aigbirhio (1995)
            Article 0 comments Cited 39 times – based on 0 reviews     Review now
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              Unprecedented directing group ability of cyclophanes in arene fluorinations with diaryliodonium salts.

              Jonathan Wang, Aaron K. Neumann, Joseph Graskemper (2011)
              For the first time it is shown that exceptionally electron-rich arene rings can be fluorinated exclusively during the reductive elimination reactions of diaryliodonium fluorides. The 5-methoxy[2.2]paracyclophan-4-yl directing group simultaneously reduces unproductive aryne chemistry and eliminates ligand exchange reactions by a combination of steric and electronic effects. Use of the cyclophane directing group permits an unprecedented degree of control in fluorination reactions of diaryliodonium salts. © 2011 American Chemical Society
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                Author and article information

                Journal
                Journal ID (publisher-id): RSCACL
                Title: RSC Adv.
                Abbreviated Title: RSC Adv.
                Publisher: Royal Society of Chemistry (RSC)
                ISSN (Electronic): 2046-2069
                Publication date Created: 2014
                Publication date (Electronic): 2014
                Volume: 4
                Issue: 33
                Pages: 17293-17299
                Affiliations
                [1 ]Institut für Neurowissenschaften und Medizin
                [2 ]INM-5: Nuklearchemie
                [3 ]Forschungszentrum Jülich GmbH
                [4 ]52425 Jülich, Germany
                [5 ]Department of Medical Physics in Radiology
                Article
                DOI: 10.1039/C4RA00674G
                SO-VID: a43123d6-d3d2-45be-977b-e9c8602e8643
                Copyright © © 2014
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