INTRODUCTION: [(18)F]EF5 is a validated marker for PET imaging of tumor hypoxia. It is prepared by reacting a trifluoroallyl precursor with carrier-added [(18)F]F(2) gas in trifluoroacetic acid (TFA) solvent. We report here an improved radiosynthesis and purification of [(18)F]EF5 by utilizing an electroformed nickel (Ni) target for [(18)F]F(2) production, and Oasis® HLB cartridges for on-line solid phase extraction of [(18)F]EF5 prior to HPLC purification. METHODS: [(18)F]F(2) was produced by deuteron bombardment of neon plus F(2) in an Ni target, and bubbled through the radiolabelling precursor solution. Purification was achieved by extracting the contents of the crude reaction mixture onto Oasis HLB cartridges, and subsequently eluted onto a semi-preparative HPLC column for further separation. Purified [(18)F]EF5 was evaluated in small animal PET studies using HCT116 tumor xenografts in nude mice. RESULTS: The electroformed Ni target enabled recovery of >75% of the radioactivity from the cyclotron target, resulting in 16.2 ± 2.2 GBq (438 ± 58 mCi) of [(18)F]F(2) available for the synthesis. Use of Oasis cartridges yielded a less complex mixture for purification. On average, 1140 ± 200 MBq (30.8 ± 5.4 mCi) of [(18)F]EF5 were collected at EOS. Small animal PET imaging studies showed specific retention of [(18)F]EF5 in tumors, with tumor-to-muscle ratios of 2.7 ± 0.3 at about 160 min after injection. CONCLUSION: A simple procedure has been developed for the routine synthesis of [(18)F]EF5 in amounts and purity required for clinical studies. This new method avoids the need for TFA evaporation and also enables facile automation of the synthesis using commercially available radiosynthesis modules.
INTRODUCTION: [(18)F]EF5 is a validated marker for PET imaging of tumor hypoxia. It is prepared by reacting a trifluoroallyl precursor with carrier-added [(18)F]F(2) gas in trifluoroacetic acid (TFA) solvent. We report here an improved radiosynthesis and purification of [(18)F]EF5 by utilizing an electroformed nickel (Ni) target for [(18)F]F(2) production, and Oasis® HLB cartridges for on-line solid phase extraction of [(18)F]EF5 prior to HPLC purification. METHODS: [(18)F]F(2) was produced by deuteron bombardment of neon plus F(2) in an Ni target, and bubbled through the radiolabelling precursor solution. Purification was achieved by extracting the contents of the crude reaction mixture onto Oasis HLB cartridges, and subsequently eluted onto a semi-preparative HPLC column for further separation. Purified [(18)F]EF5 was evaluated in small animal PET studies using HCT116tumor xenografts in nude mice. RESULTS: The electroformed Ni target enabled recovery of >75% of the radioactivity from the cyclotron target, resulting in 16.2 ± 2.2 GBq (438 ± 58 mCi) of [(18)F]F(2) available for the synthesis. Use of Oasis cartridges yielded a less complex mixture for purification. On average, 1140 ± 200 MBq (30.8 ± 5.4 mCi) of [(18)F]EF5 were collected at EOS. Small animal PET imaging studies showed specific retention of [(18)F]EF5 in tumors, with tumor-to-muscle ratios of 2.7 ± 0.3 at about 160 min after injection. CONCLUSION: A simple procedure has been developed for the routine synthesis of [(18)F]EF5 in amounts and purity required for clinical studies. This new method avoids the need for TFA evaporation and also enables facile automation of the synthesis using commercially available radiosynthesis modules.
Authors: Yiting Cao; Chuan-Yuan Li; Benjamin J Moeller; Daohai Yu; Yulin Zhao; Matthew R Dreher; Siqing Shan; Mark W Dewhirst Journal: Cancer Res Date: 2005-07-01 Impact factor: 12.701
Authors: Morand Piert; Hans-Jürgen Machulla; Maria Picchio; Gerald Reischl; Sybille Ziegler; Piyush Kumar; Hans-Jürgen Wester; Roswitha Beck; Alexander J B McEwan; Leonard I Wiebe; Markus Schwaiger Journal: J Nucl Med Date: 2005-01 Impact factor: 10.057
Authors: Ernst J Postema; Alexander J B McEwan; Terence A Riauka; Piyush Kumar; Dacia A Richmond; Douglas N Abrams; Leonard I Wiebe Journal: Eur J Nucl Med Mol Imaging Date: 2009-05-09 Impact factor: 9.236
Authors: Yiting Cao; Pierre Sonveaux; Shanling Liu; Yulin Zhao; Jing Mi; Bryan M Clary; Chuan-Yuan Li; Christopher D Kontos; Mark W Dewhirst Journal: Cancer Res Date: 2007-04-15 Impact factor: 12.701
Authors: Satish K Chitneni; Gerald T Bida; Hong Yuan; Gregory M Palmer; Michael P Hay; Thorsten Melcher; William R Wilson; Michael R Zalutsky; Mark W Dewhirst Journal: J Nucl Med Date: 2013-06-05 Impact factor: 10.057