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The University of Chicago Academic Jobs Breast Imaging Radiologists, 80% FTE #RAD078 Department of Radiology, Biological Sciences Division Position Type: Faculty Chicago, IL Apr 17, 2024 Description
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will oversee the management and operation of the iSAIRR. The appointee will participate in animal imaging and related experiments using various imaging modalities, mentor staff, train users and students
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, retrieval, de-identification, processing, and distribution of medical image data for research projects and clinical trials. The job performs routine assignments related to scientific research projects
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relevant to the lab (e.g. Microscope imaging, image and data analyses, which includes writing/modifying computer scripts, maintaining the computer network environment and trouble-shooting hardware/software
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Professor to join the nuclear medicine and molecular imaging instrumentation laboratory in the Molecular Imaging and Theranostics (MI&T) group. The MI&T group has a long history of developing novel imaging
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, transduced, and exerted as part of a broad range of processes, both physiological and pathophysiological. Our approach covers a range of biological mechanisms both at the mesoscale and the nanoscale. We use
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. These projects will involve the design, development, and testing of new equipment, instruments, and experimental protocols. The appointee will join an interdisciplinary group working on screening and image-guided
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. Responsibilities Recruits, interviews and collects intraoral images of potential study patients with guidance from PI and other clinical research staff. Identifies and explains the responsibilities of Principal
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preserving our renowned collections, the Library is assuming new roles that are vital to research, innovation, and learning at the University. In the process, we are leveraging the deep expertise of Library
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, transduced, and exerted as part of a broad range of processes, both physiological and pathophysiological. Our approach covers a range of biological mechanisms both at the mesoscale and the nanoscale. We use