Orlefors H, Sundin A, Fasth K J, Oberg K, Långström B, Eriksson B, Bergström M
Department of Medical Sciences, Uppsala University Hospital, Uppsala, Sweden.
Nucl Med Biol. 2003 Aug;30(6):669-79. doi: 10.1016/s0969-8051(03)00034-9.
A majority of neuroendocrine gastroenteropancreatic (GEP) tumors can be detected by conventional radiological methods and scintigraphic techniques. Still there are problems to visualize small tumor lesions and non-functioning tumors. The aim of this study was to investigate some of the monoamine processing pathways of neuroendocrine GEP-tumors and try to find a new tracer substance for in vivo characterization and visualization by Positron Emission Tomography (PET).
Autoradiography of tumor sections from 8 midgut carcinoids (MGC) and 8 endocrine pancreatic tumors (EPT) was performed with (11)C-labeled tracers for serotonin and dopamine transporters, serotonin HT2A-, dopamine D1- and muscarinic receptors and for monoamine oxidase A (MAO-A). The in vitro results initiated PET studies with (11)C-Harmine in 4 patients with MGC and 7 patients with EPT (one insulinoma, two glucagonomas and four non-functioning EPT).
The MAO-A-ligand Harmine expressed specific in vitro binding of 87 +/-21% for MGC and 125 +/- 50% for EPT, compared to reference tissue (rat brain, 100%). All other substances showed relatively low specific binding. (11)C-harmine-PET could visualize tumors in all patients. The mean standardized uptake value (SUV) for MGC was 7.5 +/- 3.9 and for EPT 12.9 +/- 2.7, whereas the SUV of normal liver, intestine and pancreas were 3.1 +/- 0.5, 3.4 +/- 1.2 and 8.9 +/- 3.0 respectively.
This study demonstrates in vitro and in vivo that neuroendocrine GEP-tumors are characterized by a high MAO-A-expression, thereby adding to the similarities of neuronal and neuroendocrine tissue. It also indicates a possible application for (11)C-harmine as a new PET-tracer for neuroendocrine GEP-tumors with the potential to visualize also non-functioning EPT's.
大多数神经内分泌胃肠胰(GEP)肿瘤可通过传统放射学方法和闪烁显像技术检测到。然而,对于小肿瘤病灶和无功能性肿瘤的可视化仍存在问题。本研究的目的是研究神经内分泌GEP肿瘤的一些单胺代谢途径,并试图寻找一种新的示踪物质,用于正电子发射断层扫描(PET)进行体内特征描述和可视化。
用(11)C标记的血清素和多巴胺转运体、血清素HT2A受体、多巴胺D1受体、毒蕈碱受体以及单胺氧化酶A(MAO - A)的示踪剂,对8例中肠类癌(MGC)和8例内分泌胰腺肿瘤(EPT)的肿瘤切片进行放射自显影。体外研究结果促使对4例MGC患者和7例EPT患者(1例胰岛素瘤、2例胰高血糖素瘤和4例无功能性EPT)进行了(11)C - 哈梅灵的PET研究。
与参考组织(大鼠脑,100%)相比,MAO - A配体哈梅灵在体外对MGC的特异性结合率为87±21%,对EPT为125±50%。所有其他物质显示出相对较低的特异性结合。(11)C - 哈梅灵PET能够在所有患者中使肿瘤可视化。MGC的平均标准化摄取值(SUV)为7.5±3.9,EPT为12.9±2.7,而正常肝脏、肠道和胰腺的SUV分别为3.1±0.5、3.4±1.2和8.9±3.0。
本研究在体外和体内均表明,神经内分泌GEP肿瘤的特征是MAO - A高表达,从而增加了神经元组织和神经内分泌组织的相似性。它还表明(11)C - 哈梅灵作为一种新的PET示踪剂在神经内分泌GEP肿瘤中的可能应用,其有可能使无功能性EPT也可视化。
