TY - BOOK ID - 61399409 TI - Medical Content-Based Retrieval for Clinical Decision Support : First MICCAI International Workshop, MCBR-CDS 2009, London, UK, September 20, 2009, Revised Selected Papers AU - Caputo, Barbara AU - Mueller, Henning AU - Syeda-Mahmood, Tanveer AU - Duncan, James S AU - Wang, Fei AU - Kalpathy-Cramer, Jayashree AU - SpringerLink (Online service) PY - 2010 SN - 9783642117695 9783642117718 9783642117688 PB - Berlin Heidelberg Springer Berlin Heidelberg DB - UniCat KW - Information retrieval KW - Mathematical statistics KW - Biomathematics. Biometry. Biostatistics KW - Computer science KW - Programming KW - Information systems KW - Artificial intelligence. Robotics. Simulation. Graphics KW - Computer. Automation KW - patroonherkenning KW - factoranalyse KW - MIS (management informatie systeem) KW - biomathematica KW - datamining KW - biostatistiek KW - computers KW - grafische vormgeving KW - informatiesystemen KW - biometrie KW - informatica management KW - computerkunde KW - data acquisition UR - https://www.unicat.be/uniCat?func=search&query=sysid:61399409 AB - We are pleased to present this set of peer-reviewed papers from the ?rst MICCAI Workshop on Medical Content-Based Retrieval for Clinical Decision Support. The MICCAI conference has been the ?agship conference for the m- ical imaging community re?ecting the state of the art in techniques of segm- tation, registration, and robotic surgery. Yet, the transfer of these techniques to clinical practice is rarely discussed in the MICCAI conference. To address this gap, we proposed to hold this workshop with MICCAI in London in September 2009. The goal of the workshop was to show the application of content-based retrieval in clinical decision support. With advances in electronic patient record systems, a large number of pre-diagnosed patient data sets are now bec- ing available. These data sets are often multimodal consisting of images (x-ray, CT, MRI), videos and other time series, and textual data (free text reports and structuredclinicaldata). Analyzing thesemultimodalsourcesfordisease-speci?c information across patients can reveal important similarities between patients and hence their underlying diseases and potential treatments. Researchers are now beginning to use techniques of content-based retrieval to search for disea- speci?c information in modalities to ?nd supporting evidence for a disease or to automatically learn associations of symptoms and diseases. Benchmarking frameworks such as ImageCLEF (Image retrieval track in the Cross-Language Evaluation Forum) have expanded over the past ?ve years to include large m- ical image collections for testing various algorithms for medical image retrieval and classi?cation. ER -