Kun-Eek Kil scite author profile

Kun-Eek Kil

2Publications

75Citation Statements Received

36Citation Statements Given

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Missouri College, Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital

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Synthesis and positron emission tomography studies of carbon-11-labeled imatinib (Gleevec)

Kil

Ding

Lin

et al. 2007

Nuclear Medicine and Biology

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[N-(11)C-methyl]imatinib has potential for assessing the regional distribution and kinetics of imatinib in the human body to determine whether the drug targets tumors and to identify other organs to which the drug or its labeled metabolites distribute. Paired with tracers such as 2'deoxy-2'-[(18)F]fluoro-D-glucose ((18)FDG) and 3'deoxy-3'-[(18)F]fluorothymidine ((18)FLT), [N-(11)C-methyl]imatinib may be a useful radiotracer for planning chemotherapy, for monitoring response to treatment and for assessing the role of drug pharmacokinetics in drug resistance.

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Synthesis and PET studies of [11C-cyano]letrozole (Femara), an aromatase inhibitor drug

Kil

Biegon

Ding

et al. 2009

Nuclear Medicine and Biology

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Introduction Aromatase, a member of the cytochrome P450 family, converts androgens such as androstenedione and testosterone to estrone and estradiol respectively. Letrozole (1-[bis-(4-cyanophenyl)methyl]-1H-1,2,4-triazole, Femara®) is a high affinity aromatase inhibitor (Ki=11.5 nM) which has FDA approval for breast cancer treatment. Here we report the synthesis of carbon-11 labeled letrozole and its assessment as a radiotracer for brain aromatase in the baboon. Methods Letrozole and its precursor (4-[(4-bromophenyl)-1H-1,2,4-triazol-1-ylmethyl]benzonitrile, 3) were prepared in two-step syntheses from 4-cyanobenzyl bromide and 4-bromobenzyl bromide, respectively. The [11C]cyano group was introduced via the tetrakis(triphenylphosphine)palladium(0) catalyzed coupling of [11C]cyanide with the bromo-precursor (3). PET studies in the baboon brain were carried out to assess regional distribution and kinetics, reproducibility of repeated measures and saturability. The free fraction of letrozole in the plasma, log D, and the [11C-cyano]letrozole fraction in the arterial plasma were also measured. Results [11C-cyano]Letrozole was synthesized in 60 min with a radiochemical yield of 79–80%, with a radiochemical purity greater than 98% and a specific activity of 4.16±2.21 Ci/μmol at the end of bombardment (n=4). PET studies in the baboon revealed initial rapid and high uptake and initial rapid clearance followed by slow clearance of carbon-11 from the brain with no difference between brain regions. The brain kinetics was not affected by co-injection of unlabeled letrozole (0.1 mg/kg). The free fraction of letrozole in plasma was 48.9% and log D was 1.84. Conclusion [11C-cyano]Letrozole is readily synthesized via a palladium catalyzed coupling reaction with [11C]cyanide. Although it is unsuitable as a PET radiotracer for brain aromatase as revealed by the absence of regional specificity and saturability in brain regions, such as amygdala, which are known to contain aromatase, it may be useful in measuring letrozole distribution and pharmacokinetics in brain and peripheral organs.

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Kun-Eek Kil

Synthesis and positron emission tomography studies of carbon-11-labeled imatinib (Gleevec)

Synthesis and PET studies of [11C-cyano]letrozole (Femara), an aromatase inhibitor drug

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