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Issue title: 1st Congress of the International Academy of Digital Pathology Quebec City, Canada, August 3–5, 2011. Part II
Article type: Research Article
Authors: Onozato, Maristela L. | Klepeis, Veronica E. | Yagi, Yukako | Mino-Kenudson, Mari
Affiliations: Department of Pathology, Massachusetts General Hospital, Harvard Medical School, Boston, MA
Note: [] Corresponding author: Maristela L. Onozato, MD, PhD, Department of Pathology, Massachusetts General Hospital, 101 Merrimac St, Suite 820, Boston, MA 02114, USA. Tel.:+1 617 643 7904; Fax: +1 617 643 7900; E-mail: likaono@gmail.com
Abstract: Background: Three-dimensional (3D)-reconstruction from paraffin embedded sections has been considered laborious and time-consuming. However, the high-resolution images of large object areas and different fields of view obtained by 3D-reconstruction make one wonder whether it can add a new insight into lung adenocarcinoma, the most frequent histology type of lung cancer characterized by its morphological heterogeneity. Objective: In this work, we tested whether an automated tissue sectioning machine and slide scanning system could generate precise 3D-reconstruction of microanatomy of the lung and help us better understand and define histologic subtypes of lung adenocarcinoma. Methods: Four formalin-fixed human lung adenocarcinoma resections were studied. Paraffin embedded tissues were sectioned with Kurabo-Automated tissue sectioning machine and serial sections were automatically stained and scanned with a Whole Slide Imaging system. The resulting stacks of images were 3D reconstructed by Pannoramic Viewer software. Results: Two of the four specimens contained islands of tumor cells detached in alveolar spaces that had not been described in any of the existing adenocarcinoma classifications. 3D-reconstruction revealed the details of spatial distribution and structural interaction of the tumor that could hardly be observed by 2D light microscopy studies. The islands of tumor cells extended into a deeper aspect of the tissue, and were interconnected with each other and with the main tumor with a solid pattern that was surrounded by the islands. The finding raises the question whether the islands of tumor cells should be classified into a solid pattern in the current classification. Conclusion: The combination of new technologies enabled us to build an effective 3D-reconstruction of resected lung adenocarcinomas. 3D-reconstruction may help us refine the classification of lung adenocarcinoma by adding detailed spatial/structural information to 2D light microscopy evaluation.
Keywords: Lung, adenocarcinoma, solid, micropapillary, classification, histology, 3D, automation
DOI: 10.3233/ACP-2011-0030
Journal: Analytical Cellular Pathology, vol. 35, no. 2, pp. 79-84, 2012
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