Friday, 7 may 2010
Non-Proton MRI, Microscopy & ESR
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| Non-Proton MRI, Microscopy & ESR
Room A5 10:30-12:30 Moderators: Luisa Ciobanu and Richard A. Komoroski 10:30 724. In Vivo Oxygen-17 (17O) MRI at 7 Tesla Stefan Hoffmann1, Paul Begovatz1, Armin Nagel1, Reiner Umathum1, Michael Bock1 1Medical Physics in Radiology, German Cancer Research Center, Heidelberg, Germany The detection of oxygen-17 (17O) provides a method to assess metabolic tissue information at ultra high fields. In this work direct 17O-MR imaging was carried out in vivo on a 7 Tesla MR system with a custom built head coil. Natural abundance imaging of the human head was performed and global relaxation parameters were measured. An inhalation experiment with enriched 17O gas was carried out using an inhalation-triggered oxygen delivery system. Imaging was performed prior to, during and after the inhalation showing an increase of signal intensity during ventilation with enriched oxygen-17 gas. 10:42 725. 3D Regional Measurements of Alveolar Surface Area Using 90° Single Breath XTC Samuel Patz1, Iga Muradyan1, Mikayel Dabaghyan1, Isabel Maria Dregely2, Mirko I. Hrovat3, Hiroto Hatabu1, F William Hersman4, Iulian C. Ruset4, James P. Butler5 1Department of Radiology, Brigham and Women's Hospital, Boston, MA, United States; 2Department of Physics, University of New Hampshire, Durham, NH, United States; 3Mirtech, Inc, Brockton, MA, United States; 4Xemed, LLC, Durham, NH, United States; 5Department of Environmental Health, Harvard School of Public Health, Boston, MA, United States Alveolar surface area is a key determinant of the severity of emphysema. Hence it is important to obtain regional maps of this parameter in order to evaluate disease heterogeneity. To accomplish this goal, we obtained 3D regional measurements of alveolar surface area per unit volume by measuring the septal uptake of hyperpolarized 129Xe. Single Breath XTC was used but 90° RF pulses were used for the selective “tissue phase” pulses rather than the traditional 180° pulses. 10:54 726. Indirect 17O MRI Using T1ρ at 11.7 T Hsiao-Ying Wey1,2, Fang Du1, Ai-Ling Lin1, Yen-Yu I. Shih1, Saaussan Madi3, Peter T. Fox1,2, Pradeep M. Gupte4, Timothy Q. Duong1,2 1Research Imaging Institute, UT Health Science Center at San Antonio, San Antonio, TX, United States; 2Radiology, UT Health Science Center at San Antonio, San Antonio, TX, United States; 3Bruker Biospin MRI, Inc., Billerica, MA, United States; 4Rockland Technimed Ltd., Airmont, NY, United States Cerebral metabolic rate of oxygen (CMRO2) is an important physiological parameter associated with normal brain and disease state. The unique characteristic of 17oxygen makes 17O MRI a valuable tool for CMRO2 quantification. Direct 17O measurement suffers from low spatiotemporal resolution and clinical practicability compared to indirect method, although the quantification is more straightforward. This study demonstrates the feasibility of indirect T1ρ-weighted 17O detection with 17O/PFC blood substitute injection in normal and physiologically modulated (hypothermia and ischemic stroke) rats at ultra-high field. 11:06 727. Separation of Sodium Compartments for Characterization of Tumor Tissue by 23Na-MRI Armin Michael Nagel1, Michael Bock1, Christian Matthies1, Marc-André Weber2, Stephanie Combs3, Wolfhard Semmler1, Armin Biller, 2 1Medical Physics in Radiology, German Cancer Research Center, Heidelberg, Germany; 2Department of Diagnostic and Interventional Radiology, University Hospital Heidelberg, Germany; 3Department of Radiation Oncology, University Hospital Heidelberg, Germany In this work brain-tumor patients were investigated with different 23Na-image contrasts (spin-density, 23Na-FLAIR) to gain information from which compartment the 23Na-signal originates. Using a 23Na-FLAIR sequence different 23Na-compartments in many brain tumors can be suppressed, whereas other parts still exhibit a high 23Na-FLAIR-signal. Our findings indicate that a combination of both 23Na-sequences allows for separating different 23Na compartments. Distinguishing these compartments might be important for the determination of potential tumor malignancy. 11:18 728. In Utero MRI of Cerebral Vascular Development in Mice Yüklə 256,39 Kb. Dostları ilə paylaş:
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