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共聚焦拼接显微镜在莫氏皮肤切除术中的应用:快速手术病理学的可行性

Confocal mosaicing microscopy in Mohs skin excisions: feasibility of rapid surgical pathology.

作者信息

Gareau Daniel S, Li Yongbiao, Huang Billy, Eastman Zach, Nehal Kishwer S, Rajadhyaksha Milind

机构信息

Memorial Sloan-Kettering Cancer Center, Dermatology Service, 160 East 53rd Street, New York, New York 10022, USA.

出版信息

J Biomed Opt. 2008 Sep-Oct;13(5):054001. doi: 10.1117/1.2981828.

Abstract

Mosaicing of confocal images enables observation of nuclear morphology in large areas of tissue. An application of interest is rapid detection of basal cell carcinomas (BCCs) in skin excisions during Mohs surgery. A mosaic is currently created in less than 9 min, whereas preparing frozen histology requires 20 to 45 min for an excision. In reflectance mosaics, using acetic acid as a contrast agent to brighten nuclei, large and densely nucleated BCC tumors were detectable in fields of view of 12 x 12 mm (which is equivalent to a 2x-magnified view as required by Mohs surgeons). However, small and sparsely nucleated tumors remained undetectable. Their diminutive size within the large field of view resulted in weak light backscatter and contrast relative to the bright surrounding normal dermis. In fluorescence, a nuclear-specific contrast agent may be used and light emission collected specifically from nuclei but almost none from the dermis. Acridine orange of concentration 1 mM stains nuclei in 20 s with high specificity and strongly enhances nuclear-to-dermis contrast of BCCs. Comparison of fluorescence mosaics to histology shows that both large and small tumors are detectable. The results demonstrate the feasibility of confocal mosaicing microscopy toward rapid surgical pathology to potentially expedite and guide surgery.

摘要

共聚焦图像拼接技术能够观察大面积组织中的细胞核形态。一个有趣的应用是在莫氏手术中对皮肤切除标本中的基底细胞癌(BCC)进行快速检测。目前创建一幅拼接图像所需时间不到9分钟,而制备冷冻组织切片则需要20到45分钟。在反射式拼接图像中,使用乙酸作为造影剂来提亮细胞核,在12×12毫米的视野中(相当于莫氏手术医生要求的2倍放大视野)可以检测到大型且细胞核密集的BCC肿瘤。然而,小型且细胞核稀疏的肿瘤仍然无法检测到。它们在大视野中的微小尺寸导致相对于明亮的周围正常真皮组织,光背散射和对比度较弱。在荧光成像中,可以使用核特异性造影剂,并专门收集来自细胞核而非真皮的光发射。浓度为1 mM的吖啶橙能在20秒内以高特异性对细胞核进行染色,并显著增强BCC肿瘤细胞核与真皮之间的对比度。荧光拼接图像与组织学的比较表明,大型和小型肿瘤均可检测到。结果证明了共聚焦拼接显微镜在快速手术病理学中的可行性,有可能加快手术进程并为手术提供指导。

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