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Integrative System Paradigm to Biomedical Imaging and Functional Understanding

Integrative System Paradigm to Biomedical Imaging and Functional Understanding.

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Integrative System Paradigm to Biomedical Imaging and Functional Understanding

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  1. Integrative System Paradigm to Biomedical Imaging and Functional Understanding • Observing in situ living systems across temporal and spatial scales, analyzing and understanding the related structural and functional segregation and integration mechanisms through model-based strategies and data fusion, recognizing and classifying pathological extents and degrees • Three pillars: • Biological and physical modeling • In situ observations • Robust integration Pengcheng Shi spacst@rit.edu, 475-6147

  2. Personalized Inverse Cardiac Electro-Mechanical Mapping from Structural and Functional Images • Physiome modeling • electrical propagation • electro-mechanical • coupling • biomechanics • Recovery • volumetric inverse • electrophysiology • material elasticity • kinematics • geometry Pengcheng Shi spacst@rit.edu, 475-6147

  3. Dynamic PET: Activity and Parametric Imaging • MicroPET instrumentation • Low count PET reconstruction • Dynamic PET • Pharmacokinetics (0 – 30 min, 1min interval) Pengcheng Shi spacst@rit.edu, 475-6147

  4. Nonlinear Analysis and Fusion of fMRI and EEG Images Pengcheng Shi spacst@rit.edu, 475-6147

  5. Fundamental Image Analysis Research Segmentation of Ultrasound Image of Carotid Artery • Efficient representation and computation platform • Robust image segmentation • Inverse-consistent image registration • Non-rigid motion recovery Pengcheng Shi spacst@rit.edu, 475-6147

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