[C]氟仿,一种用于在高摩尔活度下对PET放射性示踪剂三氟甲基进行通用标记的突破。
[ C]Fluoroform, a Breakthrough for Versatile Labeling of PET Radiotracer Trifluoromethyl Groups in High Molar Activity.
作者信息
Haskali Mohammad B, Pike Victor W
机构信息
Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health, Building 10, Rm B3 C346A, 10 Center Drive, Bethesda, MD, 20892-1003, USA.
出版信息
Chemistry. 2017 Jun 16;23(34):8156-8160. doi: 10.1002/chem.201701701. Epub 2017 May 17.
Abstract
Positron-emission tomography (PET) is an immensely important imaging modality in biomedical research and drug development but must use selective radiotracers to achieve biochemical specificity. Such radiotracers are usually labeled with carbon-11 (t =20 min) or fluorine-18 (t =110 min), but these are only available from cyclotrons in a few simple chemical forms. [ F]Fluoroform has emerged for labeling tracers in trifluoromethyl groups but is severely limited in utility by low radioactivity per mass (low molar activity). Here, the synthesis of [ C]fluoroform is described, based on CoF -mediated fluorination of cyclotron-produced [ C]methane. This process is efficient and repetitively reliable. [ C]Fluoroform shows versatility for labeling small molecules in very high molar activity (>200 GBq μmol ), far exceeding that possible by using [ F]fluoroform. Therefore, [ C]fluoroform represents a major breakthrough for labeling prospective PET tracers in trifluoromethyl groups at high molar activity.
摘要
正电子发射断层扫描(PET)是生物医学研究和药物开发中极为重要的成像方式,但必须使用选择性放射性示踪剂来实现生化特异性。此类放射性示踪剂通常用碳-11(半衰期t =20分钟)或氟-18(半衰期t =110分钟)标记,但这些示踪剂仅能以几种简单化学形式从回旋加速器获得。[F]氟仿已用于标记含三氟甲基的示踪剂,但其每质量的放射性低(摩尔活度低),实用性严重受限。在此,描述了基于回旋加速器产生的[C]甲烷经CoF介导的氟化反应合成[C]氟仿的方法。该过程高效且可重复可靠。[C]氟仿在标记小分子时具有很高的摩尔活度(>200 GBq μmol),展现出多功能性,远远超过使用[F]氟仿所能达到的水平。因此,[C]氟仿代表了在高摩尔活度下标记含三氟甲基的潜在PET示踪剂的一项重大突破。
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