Cuccurullo Vincenzo, Di Stasio Giuseppe Danilo, Mansi Luigi
SECONDA UNIVERSITA' DEGLI STUDI DI NAPOLI NAPOLI ITALIA.
Nucl Med Rev Cent East Eur. 2017;20(1):49-56. doi: 10.5603/NMR.2017.0003.
Radioguided surgery (RGS) is a surgical technique that, using intra-operative probes, enables the surgeon to identify tissues preoperatively "marked" by a radiopharmaceutical. Somatostatin receptors (SSTRs) are present in the majority of neuroendocrine cells and may be over-expressed not only by tumor cells, but also by endothelial cells of peritumoral vessels, inflammatory cells and cells of the immune system, such as activated lymphocytes, monocytes and epithelioid cells. This extra neoplastic uptake is the rationale for the use of radiolabeled somatostatin analogs (SSAs) either in some tumors not expressing SSTRs or in various non-oncological diseases. The crucial point of RGS technique lays in the establishment of a favorable tumor-to-background ratio (TBR). A wide range of probe systems are available with different detectors and many radiopharmaceuticals have been experimented and utilized, mainly using g-detection probes; in order to widen RGS application field, newer approaches with b- or b+ emitting radioisotopes have also been proposed. Together with the consolidated clinical use, a promising and effective employment of RGS may be found in neuroendocrine tumors (NETs) using 111In-pentetreotide (OCT). RGS with OCT has been demonstrated useful in the management of patients with gastroenteropancreatic (GEP) tumors, lung, brain and breast cancer. Preoperative scintigraphy or PET with DOTA-peptides combined with RGS increases the rate of successful surgery. Preliminary studies with b- probes using 90Y-SSA suggest the possible interest of this approach in patients undergoing peptide receptor radiotherapy.
放射性引导手术(RGS)是一种手术技术,它利用术中探头使外科医生能够识别术前被放射性药物“标记”的组织。生长抑素受体(SSTRs)存在于大多数神经内分泌细胞中,不仅可能在肿瘤细胞中过度表达,还可能在肿瘤周围血管的内皮细胞、炎症细胞以及免疫系统细胞(如活化的淋巴细胞、单核细胞和上皮样细胞)中过度表达。这种肿瘤外摄取是在一些不表达SSTRs的肿瘤或各种非肿瘤性疾病中使用放射性标记生长抑素类似物(SSAs)的理论依据。RGS技术的关键在于建立良好的肿瘤与本底比值(TBR)。有多种配备不同探测器的探头系统可供使用,并且已经试验和应用了许多放射性药物,主要是使用γ探测探头;为了拓宽RGS的应用领域,还提出了使用发射β或β⁺放射性同位素的更新方法。除了已确立的临床应用外,在神经内分泌肿瘤(NETs)中使用¹¹¹In-奥曲肽(OCT)可能会发现RGS有前景且有效的应用。已证明使用OCT的RGS在胃肠胰(GEP)肿瘤、肺癌、脑癌和乳腺癌患者的管理中是有用的。术前使用DOTA肽进行闪烁扫描或PET结合RGS可提高手术成功率。使用⁹⁰Y-SSA的β探头的初步研究表明这种方法可能对接受肽受体放疗的患者有意义。
