Frontado L M, Brouwer O R, van den Berg N S, Mathéron H M, Vidal-Sicart S, van Leeuwen F W B, Valdés Olmos R A
Servicio de Medicina Nuclear, Hospital Dr. Peset, Valencia, España.
Rev Esp Med Nucl Imagen Mol. 2013 Jul-Aug;32(4):227-33. doi: 10.1016/j.remn.2013.02.004. Epub 2013 Apr 6.
Indocyanine green (ICG)-(99m)Tc-nanocolloid is a novel hybrid fluorescent radioactive tracer for sentinel node (SN) biopsy. This study has aimed to evaluate the added value of this novel versatile tracer in a series of patients with different malignancies.
Twenty patients (with penile carcinoma, oral cavity tumors, melanoma) were consecutively included between March-May 2012. Planar lymphoscintigraphy was performed 15 min and 2h after injection of ICG-(99m)Tc-nanocolloid followed by SPECT/CT. Blue dye (1 ml) was injected in 14 patients in surgery room. Intraoperatively, SNs were localized using a gamma probe and visualized by optical SN-detection using blue dye and fluorescence imaging. Finally, a portable gamma camera was used to confirm complete SN removal.
At least one SN was identified by SPECT/CT in all patients. All SNs (total 68, 100%) were excised using a combination of radio- and fluorescence guidance: 89.7% were intraoperatively localized with the gamma probe. The remaining SNs, located near the injection site, were localized using fluorescence imaging. During the surgery, 97% of the SNs were fluorescent while only 39.2% were stained blue. Ex vivo, all SNs were both radioactive and fluorescent. The SN was positive in 5 patients.
Synchronous radio- and fluorescence guided SN biopsy is feasible using ICG-(99m)Tc-nanocolloid. This hybrid approach combines the beneficial properties of both modalities. Adding fluorescence imaging improves optical SN detection compared to blue dye. It has been shown to be especially useful in the localization of SNs near the injection site.
吲哚菁绿(ICG)-(99m)Tc纳米胶体是一种用于前哨淋巴结(SN)活检的新型混合荧光放射性示踪剂。本研究旨在评估这种新型多功能示踪剂在一系列不同恶性肿瘤患者中的附加价值。
2012年3月至5月连续纳入20例患者(患有阴茎癌、口腔肿瘤、黑色素瘤)。注射ICG-(99m)Tc纳米胶体后15分钟和2小时进行平面淋巴闪烁显像,随后进行SPECT/CT检查。14例患者在手术室注射蓝色染料(1毫升)。术中,使用γ探头定位SN,并通过蓝色染料和荧光成像的光学SN检测进行可视化。最后,使用便携式γ相机确认SN完全切除。
所有患者均通过SPECT/CT识别出至少一个SN。所有SN(共68个,100%)均采用放射性和荧光引导相结合的方法切除:89.7%在术中通过γ探头定位。其余位于注射部位附近的SN通过荧光成像定位。手术过程中,97%的SN呈荧光,而只有39.2%被染成蓝色。离体后,所有SN均具有放射性和荧光。5例患者的SN呈阳性。
使用ICG-(99m)Tc纳米胶体进行同步放射性和荧光引导的SN活检是可行的。这种混合方法结合了两种模式的有益特性。与蓝色染料相比,添加荧光成像可改善光学SN检测。已证明其在定位注射部位附近的SN方面特别有用。
