PhD, FInstP, CPhys
Herbert Dunhill Professor of Neuroimaging
- FMRIB/WIN Physics Group
Magnetic Resonance Imaging Physics and Methods Development
My group develops novel physiological MRI methods for the study of healthy and diseased brain.
I am particularly interested in techniques for mapping the macroscopic and microscopic neurovasculature. I collaborate closely with various clinical groups on the development of rapid imaging approaches to aid in the diagnosis and treatment of acute stroke and small vessel disease. A second thread of research aims to advance ultra-high field imaging, utilizing our 7-tesla scanner. This research combines novel imaging hardware, including parallel RF transmission, with state-of-the-art acquisition techniques. Finally, I also work with the Department of Psychiatry on the development of spectroscopic measurement of neurotransmitters.
I am an active member of University College and hold leadership roles in several imaging centres within Oxford (see links to left). In the broader scientific community, I have been active in the International Society for Magnetic Resonance in Medicine in a range of capacities, and am the Editor-in-Chief of the Society journal Magnetic Resonance in Medicine from January 2020.
Highly accelerated intracranial time-of-flight magnetic resonance angiography using wave-encoding.
Ji Y. et al, (2023), Magn Reson Med
The effect of subject-specific head morphometry on specific absorption rate estimates in parallel transmit MRI at 7T
JEZZARD P. et al, (2023), Magnetic Resonance in Medicine
On the open-source landscape of Magnetic Resonance in Medicine
Boudreau M. et al, (2022), Magnetic Resonance in Medicine, 88, 1495 - 1497
Optimization of undersampling parameters for 3D intracranial compressed sensing MR angiography at 7 T.
de Buck MHS. et al, (2022), Magn Reson Med
Quantitative chemical exchange saturation transfer imaging of nuclear overhauser effects in acute ischemic stroke.
Msayib Y. et al, (2022), Magn Reson Med