Thompson Stephen, Rodnick Melissa E, Stauff Jenelle, Arteaga Janna, Desmond Timothy J, Scott Peter J H, Viglianti Benjamin L
Department of Radiology , University of Michigan Medical School , Ann Arbor , MI 48109 , USA . Email:
Department of Veterans Administration , Ann Arbor , MI 48105 , USA.
Medchemcomm. 2018 Feb 1;9(3):454-459. doi: 10.1039/c7md00607a. eCollection 2018 Mar 1.
Radiolabeled erythrocytes have multiple applications in nuclear medicine, including blood pool imaging. Historically they have been labeled with SPECT radionuclides. A PET blood pool imaging agent is highly desirable as it would improve clinical applications with better image quality and resolution, higher sensitivity, and dynamic scanning capabilities. With the coming of age of modern Ge/Ga generator systems, gallium-68 is now widely accessible. In this paper we describe an updated method for the preparation of Ga-labeled erythrocytes and their preliminary use in rodent blood pool imaging. A novel automated synthesis of [Ga]oxine using a Ga/Ge generator and automated synthesis module is reported. [Ga]Oxine was synthesized in 50 ± 5% ( = 3) non-decay corrected radiochemical yield and >99% radiochemical purity. Rat and human erythrocytes were successfully labeled with the complex in 42% RCY, and the Ga-labeled erythrocytes have been shown to clearly image the blood pool in a healthy rat. Human erythrocytes labelled with [Ga]oxine were shown to be viable up to 2 hours post-labelling, and washout of the radiolabel was minimal up to 1 hour post-labelling. Further optimization of the labeling method to translate for use in human cardiac and oncologic blood pool PET imaging studies, is underway.
放射性标记红细胞在核医学中有多种应用,包括血池成像。从历史上看,它们一直用单光子发射计算机断层扫描(SPECT)放射性核素进行标记。正电子发射断层扫描(PET)血池成像剂非常理想,因为它能以更好的图像质量和分辨率、更高的灵敏度以及动态扫描能力改善临床应用。随着现代锗/镓发生器系统的成熟,镓-68现在已广泛可得。在本文中,我们描述了一种制备镓标记红细胞的更新方法及其在啮齿动物血池成像中的初步应用。报道了一种使用镓/锗发生器和自动合成模块对[68Ga]氧肟酸进行新型自动合成的方法。[68Ga]氧肟酸以50±5%(n = 3)的非衰变校正放射化学产率和>99%的放射化学纯度合成。大鼠和人类红细胞用该络合物成功标记,放射化学产率为42%,并且已证明镓标记的红细胞能清晰地显示健康大鼠的血池。用[68Ga]氧肟酸标记的人类红细胞在标记后长达2小时仍保持活力,并且在标记后长达1小时放射性标记的洗脱最少。正在对标记方法进行进一步优化,以便转化用于人类心脏和肿瘤血池PET成像研究。