Epithelial Layer Estimation Using Curvatures and Textural Features for Dysplastic Tissue Detection

Boundary effect in digital pathology is a phenomenon where the tissue shapes of biopsy samples get distorted during the sampling process. The morphological pattern of an epithelial layer is greatly affected. Theoretically, the shape deformation model can normalise the distortions, but it needs a 2D...

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Bibliographic Details
Published in:Computers, materials & continua materials & continua, 2021, Vol.67 (1), p.761-777
Main Authors: Adam, Afzan, Hadi Abd Rahman, Abdul, Samsiah Sani, Nor, Abdi Alkareem Alyessari, Zaid, Jumaadzan Zaleha Mamat, Nur, Hasan, Basela
Format: Article
Language:English
Subjects:
Butterflies & moths
Classification
Digital imaging
Ground truth
Morphology
Pathology
Straight lines
Two dimensional models
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Summary:Boundary effect in digital pathology is a phenomenon where the tissue shapes of biopsy samples get distorted during the sampling process. The morphological pattern of an epithelial layer is greatly affected. Theoretically, the shape deformation model can normalise the distortions, but it needs a 2D image. Curvatures theory, on the other hand, is not yet tested on digital pathology images. Therefore, this work proposed a curvature detection to reduce the boundary effects and estimates the epithelial layer. The boundary effect on the tissue surfaces is normalised using the frequency of a curve deviates from being a straight line. The epithelial layer’s depth is estimated from the tissue edges and the connected nucleolus only. Then, the textural and spatial features along the estimated layer are used for dysplastic tissue detection. The proposed method achieved better performance compared to the whole tissue regions in terms of detecting dysplastic tissue. The result shows a leap of kappa points from fair to a substantial agreement with the expert’s ground truth classification. The improved results demonstrate that curvatures have been effective in reducing the boundary effects on the epithelial layer of tissue. Thus, quantifying and classifying the morphological patterns for dysplasia can be automated. The textural and spatial features on the detected epithelial layer can capture the changes in tissue.
ISSN:1546-2226
1546-2218
1546-2226
DOI:10.32604/cmc.2021.014599