Electronic Posters: Cardiovascular
Tuesday 13:30-15:30 Computer 38
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| Tuesday 13:30-15:30 Computer 38
13:30 3716. Estimation of LV Function from Navigator Triggered, Real-Time Cardiac Cine Steady-State Free Precession (SSFP) Imaging Amol Pednekar1, Benjamin Cheong2, Raja Muthupillai2, Claudio Arena2 1Philips Healthcare, Cleveland, OH, United States; 2Diagnostic and Interventional Radiology, St. Luke's Episcopal Hospital, Houston, TX, United States We propose an integrated real-time data acquisition and retrospective post-processing strategy to estimate parameters characterizing global function of the left ventricle. Our initial evaluation of feasibility of this approach in normal subjects shows that slice-by-slice LV volumes estimated using the real-time cine imaging approach are comparable to the LV volumes obtained using conventional, breathhold cardiac cine SSFP techniques. The combination of respiratory navigator triggering, real-time unsegmented SSFP cine imaging, and integrated retrospective automated processing may make this approach particularly useful in patients with severe arrhythmias, and/or severely compromised respiratory function. 14:00 3717. ShMOLLI: Shortened Modified Look Locker Inversion Recovery for Cardiac T1 Mapping – from Theory to Normal Human Myocardium Stefan K. Piechnik1, Vanessa M. Ferreira2, Erica Dall'Armellina2, Lowri E. Cochlin3, Stefan Neubauer2, Matthew D. Robson2 1Cardiovascular Medicine, OCMR, Oxford University , Oxford, Oxfordshire, United States; 2Cardiovascular Medicine, OCMR, Oxford University, Oxford, Oxfordshire, United States; 3Dept of Physiology, Anatomy and Genetics, Oxford University, Oxford, Oxfordshire, United States We propose a cardiac T1-mapping method based on sequential Look-Locker measurements with conditional reconstruction of incomplete recovery periods. This new method assures that robust T1 mapping can be achieved in a 9 heartbeat breath-hold with accuracy comparable to existing methods. 14:30 3718. Preferential Patterns of Myocardial Iron Deposition by Multislice Multiecho T2* CMR in Thalassemia Major Patients. Antonella Meloni1, Vincenzo Positano1, Alessia Pepe1, Pasquale Pepe1, Maria Chiara Dell'Amico1, Cristina Salvatori1, Petra Keilberg1, Gianluca Valeri2, Eliana Cracolici3, Pier Paolo Bitti4, Angelo Zuccarelli5, Maria Filomena Santarelli1, Massimo Lombardi1 1MRI Lab, “G. Monasterio Foundation” and Institute of Clinical Physiology, CNR, Pisa, Italy; 2Azienda Ospedaliero-Universitaria Ospedali Riuniti "Umberto I-Lancisi-Salesi", Ancona, Italy; 3Policlinico "Paolo Giaccone" , Palermo, Italy; 4Dipartimento dei Servizi - P. O. San Francesco, Nuoro, Italy; 5Centro trasfusionale e di microcitemia - Ospedale civile, Olbia, Italy Multislice multiecho T2* MRI allows quantification of iron overload in the whole myocardium. A preferential pattern of iron store in anterior and inferior regions appears to be present in thalassemia major patients with severe and mild-moderate iron overload. The preserved pattern between the groups prevents attributing this datum to additive susceptibility artefacts, which are negligible in heavily iron-loaded patients. A segmental T2* CMR approach could identify early iron deposit, useful for tailoring chelation therapy and preventing myocardial dysfunction in the clinical setting. 15:00 3719. RV Function from Cine MRI Using Contour Propagation Wei Feng1, Himanshu Gupta2, Steven Lloyd2, Louis Dell'Italia2, Thomas S. Denney Jr3 1Biomedical Engineering, MRI Institute, Detroit, MI, United States; 2Division of Cardiovascular Disease, University of Alabama at Birmingham, Birmingham, AL, United States; 3Electrical Engineering, Auburn University, Auburn, AL, United States This abstract presents a method for computing right-ventricular volume-versus-time curves and peak ejection and filling rates from standard cardiac cine MRI. The method uses RV contours drawn semi-automatically near end-diastole and end-systole and propagates them to the remaining time frames via a non-rigid registration technique. The propagated contours are validated by comparing them to contours manually drawn by a cardiologist with Level 3 training. In addition, peak ejection and filling rates computed from both manually-drawn and propagated contours are compared. Yüklə 492,08 Kb. Dostları ilə paylaş:
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