PURPOSE: [(18)F]Fluoromethylcholine ([(18)F]FCho) is a radiotracer generally used for tumour visualization in patients. Due to high levels of dimethylaminoethanol (DMAE) remaining in [(18)F]FCho solutions synthesized by currently available methods, tumour visualization might be compromised. METHODS: An improved purification method involving an optimized purification step for reducing the levels of DMAE was conceived. The physiological explanation for the interference of residual DMAE in [(18)F]FCho pharmacokinetics was further elaborated in a xenograft mouse model. RESULTS: The use of a series of polymer solid-phase extraction cartridges (Oasis HLB/WCX), instead of the commonly used combination of tC18 and Accell CM cartridges, reduced DMAE levels from 402.2±49.6 ppm to 3.0±0.5 ppm. Subsequent in vitro tests proved that (1) [(18)F]FCho uptake was reduced in the presence of DMAE at concentrations above 0.5 µM and (2) DMAE is a competitive inhibitor of [(18)F]FCho transport. In vivo experiments in xenograft mouse models corroborated reduced tumour uptake at DMAE plasma levels of about 2.5 µM as found in patients injected with contaminated [(18)F]FCho. CONCLUSION: Residual DMAE, even at levels below choline plasma concentrations found during fasting, compromises [(18)F]FCho uptake in vivo and care should be taken to avoid its interference in molecular imaging with [(18)F]FCho.
PURPOSE: [(18)F]Fluoromethylcholine ([(18)F]FCho) is a radiotracer generally used for tumour visualization in patients. Due to high levels of dimethylaminoethanol (DMAE) remaining in [(18)F]FCho solutions synthesized by currently available methods, tumour visualization might be compromised. METHODS: An improved purification method involving an optimized purification step for reducing the levels of DMAE was conceived. The physiological explanation for the interference of residual DMAE in [(18)F]FCho pharmacokinetics was further elaborated in a xenograft mouse model. RESULTS: The use of a series of polymer solid-phase extraction cartridges (Oasis HLB/WCX), instead of the commonly used combination of tC18 and Accell CM cartridges, reduced DMAE levels from 402.2±49.6 ppm to 3.0±0.5 ppm. Subsequent in vitro tests proved that (1) [(18)F]FCho uptake was reduced in the presence of DMAE at concentrations above 0.5 µM and (2) DMAE is a competitive inhibitor of [(18)F]FCho transport. In vivo experiments in xenograft mouse models corroborated reduced tumour uptake at DMAE plasma levels of about 2.5 µM as found in patients injected with contaminated [(18)F]FCho. CONCLUSION: Residual DMAE, even at levels below choline plasma concentrations found during fasting, compromises [(18)F]FCho uptake in vivo and care should be taken to avoid its interference in molecular imaging with [(18)F]FCho.
Authors: T R DeGrado; R E Coleman; S Wang; S W Baldwin; M D Orr; C N Robertson; T J Polascik; D T Price Journal: Cancer Res Date: 2001-01-01 Impact factor: 12.701
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