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Issue title: Special Section: Collective intelligence in information systems
Guest editors: Ngoc Thanh Nguyen, Edward Szczerbicki, Bogdan Trawiński and Van Du Nguyen
Article type: Research Article
Authors: D’Acunto, Marioa | Martinelli, Massimob | Moroni, Davideb; *
Affiliations: [a] Institute of Biophysics, National Research Council of Italy, Via Moruzzi, 1 – 56124-Pisa (IT) | [b] Institute of Information Science and Technologies, National Research Council of Italy, Via Moruzzi, 1 – 56124-Pisa (IT)
Correspondence: [*] Corresponding author. Davide Moroni, Institute of Information Science and Technologies, National Research Council of Italy, Via Moruzzi, 1 – 56124-Pisa (IT). E-mail: davide.moroni@isti.cnr.it.
Abstract: Early diagnosis of cancer often allows for a more vast choice of therapy opportunities. After a cancer diagnosis, staging provides essential information about the extent of disease in the body and the expected response to a particular treatment. The leading importance of classifying cancer patients at the early stage into high or low-risk groups has led many research teams, both from the biomedical and bioinformatics field, to study the application of Deep Learning (DL) methods. The ability of DL to detect critical features from complex datasets is a significant achievement in early diagnosis and cell cancer progression. In this paper, we focus the attention on osteosarcoma. Osteosarcoma is one of the primary malignant bone tumors which usually afflicts people in adolescence. Our contribution to classification of osteosarcoma cells is made as follows: a DL approach is applied to discriminate human Mesenchymal Stromal Cells (MSCs) from osteosarcoma cells and to classify the different cell populations under investigation. Glass slides of different cell populations were cultured including MSCs, differentiated in healthy bone cells (osteoblasts) and osteosarcoma cells, both single cell populations or mixed. Images of such samples of isolated cells (single-type of mixed) are recorded with traditional optical microscopy. DL is then applied to identify and classify single cells. Proper data augmentation techniques and cross-fold validation are used to appreciate the capabilities of a convolutional neural network to address the cell detection and classification problem. Based on the results obtained on individual cells, and to the versatility and scalability of our DL approach, the next step will be its application to discriminate and classify healthy or cancer tissues to advance digital pathology.
Keywords: Human mesenchymal stromal cells, Osteosarcoma cells, deep learning, convolutional neural networks, convolutional object detection systems, cell classification
DOI: 10.3233/JIFS-179332
Journal: Journal of Intelligent & Fuzzy Systems, vol. 37, no. 6, pp. 7199-7206, 2019
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