Sasagawa Yasuo, Akai Takuya, Nakada Satoko, Minato Hiroshi, Tachibana Osamu, Nojima Takayuki, Iizuka Hideaki
Department of Neurosurgery, Kanazawa Medical University, 1-1 Daigaku, Uchinada, 920-0293, Japan,
Acta Neurochir (Wien). 2014 Apr;156(4):681-7. doi: 10.1007/s00701-014-1995-y. Epub 2014 Jan 21.
Narrow-band imaging (NBI) has been confirmed as a useful endoscopic technique to distinguish neoplasm from normal tissue, on the basis of the enhanced neovascularity of tumor tissue. NBI-guided tissue biopsy for laryngopharyngeal and digestive lesions is a novel methodology, but the feasibility for central nervous system tumors remains unclear. The aim of our study was to evaluate the feasibility of NBI-guided biopsy for intraventricular and paraventricular tumor.
Fourteen patients with intraventricular or paraventricular tumors underwent neuroendoscopic biopsy using a videoscope with NBI. Ventricular walls and tumors were observed using conventional imaging, followed by NBI. Colors of ventricle walls and tumors visualized using NBI were compared to those visualized under conventional imaging. Extracted specimens were stained using CD31 antibody and numbers of microvessels in each specimen were counted for analyzing vascular density.
Normal ventricle walls were a similar color under conventional imaging and NBI. Tumor surfaces appeared to be cyan in color under NBI. Vessels on the tumor were more clearly visualized with NBI than with conventional imaging. NBI was able to identify tumor surfaces that were not perceptible on conventional imaging. All specimens in the lesion surfaces from cyan-colored areas under NBI contained tumor cells. Specimens extracted from regions that appeared cyan in color under NBI (51.0 vessels/mm(2)) had significantly greater vascular density than regions that appeared a normal color (17.4 vessels/mm(2); p = 0.039).
NBI-guided biopsy of intraventricular and paraventricular tumors is feasible for visualizing tumor surface-enhancing neovascularities. NBI would contribute to accurate histological diagnosis while minimizing injury to surrounding structures.
窄带成像(NBI)已被确认为一种有用的内镜技术,可根据肿瘤组织新生血管的增强来区分肿瘤组织与正常组织。NBI引导下对喉咽和消化病变进行组织活检是一种新方法,但对中枢神经系统肿瘤的可行性仍不清楚。我们研究的目的是评估NBI引导下对脑室内和脑室旁肿瘤进行活检的可行性。
14例脑室内或脑室旁肿瘤患者使用带有NBI的视频内镜进行神经内镜活检。先用传统成像观察脑室壁和肿瘤,然后进行NBI观察。将NBI观察到的脑室壁和肿瘤的颜色与传统成像下观察到的颜色进行比较。提取的标本用CD31抗体染色,并计算每个标本中的微血管数量以分析血管密度。
在传统成像和NBI下,正常脑室壁颜色相似。在NBI下肿瘤表面呈青色。与传统成像相比,NBI能更清晰地显示肿瘤上的血管。NBI能够识别传统成像上无法察觉的肿瘤表面。NBI下呈青色区域的病变表面的所有标本均含有肿瘤细胞。从NBI下呈青色区域提取的标本(51.0个血管/mm²)的血管密度明显高于呈正常颜色区域(17.4个血管/mm²;p = 0.039)。
NBI引导下对脑室内和脑室旁肿瘤进行活检对于可视化肿瘤表面增强的新生血管是可行的。NBI有助于准确的组织学诊断,同时将对周围结构的损伤降至最低。
