| Awards: | He has established a productive research program built around an active
network of neuroscience collaborations within the Department of Radiology
and Stanford University. This has resulted in several on going clinically
oriented NIH grants, collaborator on major center grants, and numerous
sponsored projects. He serves on four editorial boards and is active in
guiding MR societies, becoming a Fellow of the International Society of
Magnetic Resonance in Medicine. More recently, he is the incoming President
of the ISMRM, and has been awarded the ISMRM Gold Medal for Research in
2000.
2003 President, International Society of Magnetic Resonance in Medicine
(ISMRM)
2002 Spinoza Visiting Professor, Academic Medical Center, Amsterdam
2002 President Elect, International Society of Magnetic Resonance in Medicine (ISMRM)
2001 Clinical Research Award. Korean Society for Magnetic Resonance in
Medicine, Seoul, November 2001
2001 Awarded Gold Medal. International Society of Magnetic Resonance in
Medicine (ISMRM '01)
1998 Elected as Honorary Fellow: International Society of Magnetic Resonance in Medicine (ISMRM '98) |
| Address: | Stanford University School of Medicine
Department of Radiology
Lucas MRS Imaging Center, P286
Stanford, CA 94022 |
| Phone: | (650) 725-6077 |
| Fax: | (650) 723-5795 |
| E-mail: | moseley@stanford.edu |
| Research Interests: | My interests involve research and diagnosis of disease states using new techniques of magnetic resonance (MR) in research and clinical. Water diffusion-sensitive MR imaging of the brain and other tissues. Mapping brain water diffusion has revolutionized our knowledge of the onset and evolution of cerebral stroke, making the MR scanner a potential "operating room" of choice for early and effective treatment of stroke and vascular disease. Because these diffusion and blood flow maps can be rapidly acquired, rapid identification of tissues that are in need of thrombolytic therapy or cytotoxic protection in the first critical hours following stroke or during surgery can be made. This non-invasive mapping of water motion and diffusion represents a new field of imaging and has created a breakthrough in assessment and treatment in stroke. |
| Current Labs: | Research and Diagnosis of Disease States Using Magnetic Resonance Lab
|
| Recent Publications: |
- Bammer R, Skare S, Newbould R, Liu C, Thijs V, Ropele S, Clayton DB, Krueger G, Moseley ME, Glover GH. Foundations of advanced magnetic resonance imaging. NeuroRx.2005; 2(2): 167-96.
- Li TQ, Kim DH, Moseley ME. High-resolution diffusion-weighted imaging with interleaved variable-density spiral acquisitions. J Magn Reson Imaging.2005; 21(4): 468-75.
- Liu C, Bammer R, Moseley ME. Limitations of apparent diffusion coefficient-based models in characterizing non-gaussian diffusion. Magn Reson Med.2005; 54(2): 419-28.
- Bammer R, de Crespigny AJ, Howard D, Seri S, Hashiguchi Y, Nakatani A, Moseley ME. A comparative evaluation of CH3-DTPA-Gd (NMS60) for contrast-enhanced magnetic resonance angiography. Magn Reson Imaging.2004; 22(5): 619-24.
- D'Arceuil HE, de Crespigny AJ, Pelc L, Howard D, Alley M, Seri S, Hashiguchi Y, Nakatani A, Moseley ME. An MRA study of vascular stenosis in a pig model using CH3-DTPA-Gd (NMS60) and Gd-DTPA. Magn Reson Imaging.2004; 22(9): 1243-8.
- Liu C, Bammer R, Acar B, Moseley ME. Characterizing non-Gaussian diffusion by using generalized diffusion tensors. Magn Reson Med.2004; 51(5): 924-37.
- Liu C, Bammer R, Kim DH, Moseley ME. Related Articles, Links Self-navigated interleaved spiral (SNAILS): application to high-resolution diffusion tensor imaging. Magn Reson Med.2004; 52(6): 1388-96.
- Na DG, Thijs VN, Albers GW, Moseley ME, Marks MP. Diffusion-weighted MR imaging in acute ischemia: value of apparent diffusion coefficient and signal intensity thresholds in predicting tissue at risk and final infarct size. AJNR Am J Neuroradiol.2004; 25(8): 1331-6.
- Thijs VN, Somford DM, Bammer R, Robberecht W, Moseley ME, Albers GW. Influence of arterial input function on hypoperfusion volumes measured with perfusion-weighted imaging. Stroke.2004; 35(1): 94-8.
- Arzoumanian Y, Mirmiran M, Barnes PD, Woolley K, Ariagno RL, Moseley ME, Fleisher BE, Atlas SW. Diffusion tensor brain imaging findings at term-equivalent age may predict neurologic abnormalities in low birth weight preterm infants. AJNR Am J Neuroradiol.2003; 24(8): 1646-53.
- Bammer R, Acar B, Moseley ME. In vivo MR tractography using diffusion imaging. Eur J Radiol.2003; 45(3): 223-34.
- Bammer R, Herneth AM, Maier SE, Butts K, Prokesch RW, Do HM, Atlas SW, Moseley ME. Line scan diffusion imaging of the spine. AJNR Am J Neuroradiol.2003; 24(11): 5-12.
- Bammer R, Markl M, Barnett A, Acar B, Alley MT, Pelc NJ, Glover GH, Moseley ME. Analysis and generalized correction of the effect of spatial gradient field distortions in diffusion-weighted imaging. Magn Reson Med.2003; 50(3): 560-9.
- Chow LC, Bammer R, Moseley ME, Sommer FG. Single breath-hold diffusion-weighted imaging of the abdomen. J Magn Reson Imaging.2003; 18(3): 377-82.
- Markl M, Bammer R, Alley MT, Elkins CJ, Draney MT, Barnett A, Moseley ME, Glover GH, Pelc NJ. Generalized reconstruction of phase contrast MRI: analysis and correction of the effect of gradient field distortions. Magn Reson Med.2003; 50(4): 791-801.
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