显微镜
薄层荧光显微镜
病理
间隙
数字化病理学
背景(考古学)
显微镜
亮场显微术
生物医学工程
医学
外科病理学
组织病理学
光学显微镜
活检
材料科学
生物
扫描共焦电子显微镜
扫描电子显微镜
泌尿科
古生物学
复合材料
作者
Adam K. Glaser,Nicholas P. Reder,Ye Chen,Erin McCarty,Chengbo Yin,Linpeng Wei,Yu Wang,Lawrence D. True,Jonathan Liu
标识
DOI:10.1038/s41551-017-0084
摘要
For the 1.7 million patients per year in the U.S. who receive a new cancer diagnosis, treatment decisions are largely made after a histopathology exam. Unfortunately, the gold standard of slide-based microscopic pathology suffers from high inter-observer variability and limited prognostic value due to sampling limitations and the inability to visualize tissue structures and molecular targets in their native 3D context. Here, we show that an open-top light-sheet microscope optimized for non-destructive slide-free pathology of clinical specimens enables the rapid imaging of intact tissues at high resolution over large 2D and 3D fields of view, with the same level of detail as traditional pathology. We demonstrate the utility of this technology for various applications: wide-area surface microscopy to triage surgical specimens (with ~200 μm surface irregularities), rapid intraoperative assessment of tumour-margin surfaces (12.5 sec/cm2), and volumetric assessment of optically cleared core-needle biopsies (1 mm in diameter, 2 cm in length). Light-sheet microscopy can be a versatile tool for both rapid surface microscopy and deep volumetric microscopy of human specimens.
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