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This course on BigData for Imaging is a unique opportunity to join a community of leading edge practitioners in the field of Radiomics and Medical Imaging Artificial Intelligence . During this 4-days immersive course, you will be able to attend lectures and workshops from world-class experts. There are ample opportunities to network with faculty members and other participants.

Medical imaging has been the cornerstone for the management of patients for decades, particularly in oncology. Imaging data such as CT, MRI or PET are routinely acquired for every cancer patient in the process of diagnosis, treatment planning, image-guided interventions and response assessment. The use of image analysis in a quantitative way is now considered as one of the most promising techniques to support clinical decisions.

Genomics aims at identifying genes and gene mutation to characterize tumor or normal tissue. Radiomics looks at the phenotypic expression of genes, which results in particular imaging features or signatures able to characterize tumor and normal tissue.  Radiomics is the high throughput extraction of large amounts of quantitative image features such as tumor image intensity, (multi-scale) texture, shape and size extracted from standard medical images (e.g., CT, MR, PET) using (semi)automatic software. These features are distilled through machine learning into ‘signatures’ that functions as quantitative imaging biomarkers. Recently the radiomics approach has been enriched by Deep Learning methods. A major challenge for the community is the availability of data in compliance with existing and future privacy laws. Distributed learning offers a solution to this issue and will be demonstrated. Medical imaging combined with artificial intelligence will guide personalized cancer treatment in the future.