https://ai-econsilio.diag.pl. Furthermore, we propose a machine learning framework for detection of cancerous tissue regions and prediction of scan-level diagnosis, utilizing thresholding and statistical analysis to abstain from the decision in uncertain cases. During the experimental evaluation we identify several factors negatively affecting the performance of considered models, such as presence of label noise, data imbalance, and quantity of data, that can serve as a basis for further research. The proposed approach, composed of ensembles of deep neural networks operating on the histopathological scans at different scales, achieves 94.6% accuracy in patch-level recognition, and is compared in a scan-level diagnosis with 9 human histopathologists.
Cancer diseases constitute one of the most significant societal challenges. In this paper we introduce a novel histopathological dataset for prostate cancer detection. The proposed dataset, consisting of over 2.6 million tissue patches extracted from 430 fully annotated scans, 4675 scans with assigned binary diagnosis, and 46 scans with diagnosis given independently by a group of histopathologists, can be found at