Automated virtual microscopy of gastric biopsies

Background: Automated virtual microscopy of specimens from gastrointestinal biopsies is based on cytometric parameters of digitized histological sections. To our knowledge, cytometric parameters of gastritis and of adenocarcinoma have yet to be fully characterized. Our objective was to classify gast...

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Bibliographic Details
Published in:Cytometry. Part B, Clinical cytometry Clinical cytometry, 2006-11, Vol.70B (6), p.423-431
Main Authors: Ficsor, Levente, Varga, Viktor, Berczi, Lajos, Miheller, Pal, Tagscherer, Attila, Wu, Mark Li‐cheng, Tulassay, Zsolt, Molnar, Bela
Format: Article
Language:English
Subjects:
Adenocarcinoma - classification
Adenocarcinoma - diagnosis
Adenocarcinoma - pathology
Adult
Aged
Aged, 80 and over
automated classification
Biopsy
Diagnosis, Differential
digital microscopy
Female
Gastric Mucosa - ultrastructure
Gastritis - classification
Gastritis - diagnosis
Gastritis - pathology
Humans
Image Cytometry - methods
image segmentation
Male
Microscopy - methods
Middle Aged
Retrospective Studies
Sensitivity and Specificity
stomach
Stomach Neoplasms - classification
Stomach Neoplasms - diagnosis
Stomach Neoplasms - pathology
tissue‐cytometric parameter
User-Computer Interface
virtual slide
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Description
Summary:Background: Automated virtual microscopy of specimens from gastrointestinal biopsies is based on cytometric parameters of digitized histological sections. To our knowledge, cytometric parameters of gastritis and of adenocarcinoma have yet to be fully characterized. Our objective was to classify gastritis and adenocarcinoma based on cytometric parameters. We hypothesized that automated virtual microscopy using this novel classification can reliably diagnose gastritis and adenocarcinoma. Methods: Routinely processed hematoxylin‐and‐eosin‐stained histological sections from specimens that showed normal mucosa (14 cases), gastritis (35 cases), and adenocarcinoma (30 cases) diagnosed by conventional optical microscopy were scanned and digitized at high resolution. Thirty‐eight cytometric parameters based on density and morphometry were applied to glands and superficial epithelium. Twelve cytometric parameters based on cytologic detail were applied to individual cells. Results: Statistically significant differences in cytometric parameters for normal mucosa, gastritis, and adenocarcinoma were found. The most discriminatory parameter was the ratio of the total number of cells to the number of interstitial cells. These differences correctly classified adenocarcinoma at 100% accuracy and overall correctness was 86%. Conclusions: We describe a novel method of analyzing gastric mucosal histology based on cytometric parameters. Automated virtual microscopy can be used to classify gastric mucosa as normal, gastritis, or adenocarcinoma with reasonable accuracy. Further research is necessary to determine whether automated virtual microscopy can subclassify gastric mucosal histology in greater detail. © 2006 International Society for Analytical Cytology
ISSN:1552-4949
1552-4957
DOI:10.1002/cyto.b.20119