Archivio Istituzionale della RicercaImage segmentation is a crucial task of medical image processing, including the analysis of multicellular tumour spheroids (MTSs), a common in vitro model used in cancer research for drug screening. Accurate segmentation of MTSs images allows the extraction of the morphological features necessary for the evaluation of the efficacy of the treatment they undergo. This paper presents an artificial intelligence (AI)-based segmentation system for the analysis of RGB images of MTS using machine learning (ML) classifiers. Unlike previous methods designed for high-performance microscope images, our system focuses on RGB images captured by standard bench-top optical microscopes, offering a cost-effective and accessible solution for research. The preliminary results demonstrate the efficacy of the ML approach in achieving the desired outcome.
Intelligent System for Automated Spheroid Segmentation Using Machine Learning / Introvaia, Alessandra; Bezze, Andrea; Muccio, Sara; Mattu, Clara; Balestra, Gabriella. - ELETTRONICO. - 327:(2025), pp. 557-561. (Intervento presentato al convegno 35th Medical Informatics Europe Conference - MIE 2025 tenutosi a Glasgow (UK) nel 19–21 May 2025) [10.3233/shti250399].
Intelligent System for Automated Spheroid Segmentation Using Machine Learning
Introvaia, Alessandra;Bezze, Andrea;Muccio, Sara;Mattu, Clara;Balestra, Gabriella
2025
Abstract
Image segmentation is a crucial task of medical image processing, including the analysis of multicellular tumour spheroids (MTSs), a common in vitro model used in cancer research for drug screening. Accurate segmentation of MTSs images allows the extraction of the morphological features necessary for the evaluation of the efficacy of the treatment they undergo. This paper presents an artificial intelligence (AI)-based segmentation system for the analysis of RGB images of MTS using machine learning (ML) classifiers. Unlike previous methods designed for high-performance microscope images, our system focuses on RGB images captured by standard bench-top optical microscopes, offering a cost-effective and accessible solution for research. The preliminary results demonstrate the efficacy of the ML approach in achieving the desired outcome.
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Descrizione: SHTI-327-SHTI250399
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https://hdl.handle.net/11583/3002338