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Article type: Research Article
Authors: Morkūnas, Mindaugas1; 2; * | Treigys, Povilas1 | Bernatavičienė, Jolita1 | Laurinavičius, Arvydas2 | Korvel, Gražina1
Affiliations: [1] Institute of Data Science and Digital Technologies, Vilnius University, Akademijos str. 4, LT-08663 Vilnius, Lithuania. E-mails: mindaugas.morkunas@mii.vu.lt, povilas.treigys@mii.vu.lt, jolita.bernataviciene@mii.vu.lt, arvydas.laurinavicius@vpc.lt | [2] National Center of Pathology, Affiliate of Vilnius University Hospital Santaros klinikos, P. Baublio str. 5, LT-08406 Vilnius, Lithuania. E-mail: grazina.korvel@mii.vu.lt
Correspondence: [*] Corresponding author.
Abstract: The recent introduction of whole-slide scanning systems enabled accumulation of high-quality pathology images into large collections, thus opening new perspectives in cancer research, as well as new analysis challenges. Automated identification of tumour tissue in the whole-slide image enables further use of developed grading systems that classify tumour cell abnormalities and predict tumour developments. In this article, we describe several possibilities to achieve epithelium-stroma classification of tumour tissues in digital pathology images by employing annotated superpixels to train machine learning algorithms. We emphasize that annotating superpixels rather than manually outlining tissue classes in raw images is less time consuming, and more effective way of producing ground truth for computational pathology pipelines. In our approach feature space for supervised learning is created from tissue class assigned superpixels by extracting colour and texture parameters, and applying dimensionality reduction methods. Alternatively, to train convolutional neural network, labelled superpixels are used to generate square image patches by moving fixed size window around each superpixel centroid. The proposed method simplifies the process of ground truth data collection and should minimize the time spent by a skilled expert to perform manual annotation of whole-slide images. We evaluate our method on a private data set of colorectal cancer images. Obtained results confirm that a method produces accurate reference data suitable for the use of different machine learning based classification algorithms.
Keywords: tumour, whole-slide image, machine learning, superpixel, ground truth, colour and texture features, convolutional neural network
Journal: Informatica, vol. 29, no. 1, pp. 75-90, 2018
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