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Resources for development and validation of Radiomic analyses & Adaptive Therapy

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Imaging based cancer research is in the beginning phases of a transition from analyses based on human observers to the use of advanced computing platforms and software to automatically extract large sets of quantitative image features relevant to prognosis or treatment response. These feature sets can be used to infer phenotypes or correlate with gene-protein signatures. In parallel, radiation oncology is responding to the quantitative requirements of adaptive therapy, where therapy decisions take into account the early response of the tumor to the treatment. Both of these advanced techniques share similar resource requirement, in particular high capacity information repositories co-located with high performance computing capabilities and tools to perform advanced analytics. Drawing on broad experience in imaging informatics we will expand upon the existing Cancer Imaging Archive (TCIA) platform and computational resources of the Washington University Center for High Performance Computing to provide leading edge research services to Quantitative Imaging Network (QIN) researchers. To facilitate this translational research and share our processes and experiences with the academic cancer research community, we propose to: 1. Provide data hosting, management and access capabilities to QIN researchers including longitudinal data collections and advanced Radiation Therapy (RT) data structure support; 2. Develop a QIN portal to support advanced quantitative image processing and biomarker validation through co-located scalable computing and big data infrastructure; 3. Support biomarker development and validation with advanced analytics that employ a new generation of statistical tools and data modeling techniques; 4. Provide training and support to permit QIN researchers to effectively utilize this suite of advanced capabilities combined with open source community enablement tools. We have assembled a strong team with a long history of collaboration and extensive experience with open source software development methodologies and advanced imaging informatics. The long-term goal of our team is to develop and deploy software and services to drive advanced quantitative image analysis and biomarker development and provide a gateway for researchers to interrogate multi-modality datasets and mine them to create and validate novel hypotheses in cancer research.

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