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RESEARCH ASSISTANT PROFESSORRequisition # 74072Position BasicsType of PositionRESEARCH-TRACKAdvertising Ends on:Extended Until Position is FilledAdvertising Started on:Friday, February 19th, 2021College:Carver College of MedicineDepartment:RadiologySalarySalary:CommensuratePosition DetailsFull/Part Time Status:Full TimePosition Description:The Roy J. and Lucille A. Carver College of Medicine invites applications for a 100% research track faculty position as a Research Assistant Professor in the Department of Radiology.The primary function of this position is to develop new MR imaging capabilities and independent research program in Radiology. The primary focus will be on the development of deep learning image reconstruction algorithms for magnetic resonance imaging and their integration with MRI hardware. The objective is to improve the state of the art in the imaging of anatomy, function, and metabolism. In addition, this position will report the results from these efforts in scientific publications as well as support the writing and submission of grant applications.Candidates must be committed to the University's goal of inclusiveness and have a demonstrated history of working effectively with persons of all races, ethnicities, nationalities, genders, gender identities, sexual orientations, and religions. Candidates must be prepared to explain how they have been and/or will be involved in advancing this goal with CME and the CCOM.About the MR Research Facility:The University of Iowa MR Research Facility was established in August of 2004 and now supports research dedicated 3T and 7T whole body scanners and a 7T small animal scanner. The MRRF facility has received two NIH High End Instrumentation grants over the past ten years to help support the acquisition of these instruments. In 2016, the facility moved into the Iowa Institute for Biomedical Imaging (IIBI) located within the Pappajohn Biomedical Discovery Building (PBDB). The MRRF is run as a Core University facility.The MR Research Center aims to maintain state-of-the-art equipment and facilities. This requires an investment in both the hardware and software that compose our center's mainstay, and also an investment in recruiting and maintaining exceptional personnel. To that end, we have been actively pursuing development in the following areas to advance the research at our University...Diffusion Tensor Imaging (DTI) - This is of interest mainly for evaluation of brain morphology changes associated with neurological and psychiatric disorders. We have been working on novel schemes for rotating the diffusion tensor and multishot approaches for high resolution Diffusion Tensor Imaging. We are also working on tools for fiber tracking. These tools are currently available through the Neuroimaging Informatics Tools and Resources Clearinghouse.T1rho Imaging - The primary application of this technique is to assess and quantify pathologic cartilage matrix changes that are not detectable with standard morphological MRI. Initial work has focused on the knee joint in an ACL injury population to determine the suitability of T1rho as an imaging biomarker for early detection of osteoarthritis. Broader application to the ankle and hip joints are also being explored. We are also evaluating the utilization of this method to study pH changes that may result from stress including Post Traumatic Stress Disorder and depression.Arterial Spin Labeling - Using the Siemens ASL WIP for VB13, we have started to evaluate this technique for functional brain activation studies. To date we have successfully generated reproducible measurements within the occipital cortex and are starting to evaluate higher order cognitive activation studies.MR Spectroscopy - We have been working on tools for partial volume correction of brain MR spectroscopy studies and have been able to obtain the PEPSI sequence from Stefan Posse. Various pilot studies are currently being conducted using 1H-MRS, and at least one resea