3 Tesla Human MRI
MRI is an incredibly versatile imaging technique. By carefully manipulating the way MRI measures different tissue properties, it is possible to obtain a host of different kinds of images that show very different information. In neuroscience, MRI can be used to produce detailed three dimensional images of brain anatomy, and to map the white matter connections between brain areas. Of particular interest is the ability to perform functional imaging, where MRI picks up on subtle changes in blood flow caused by the fluctuations in oxygen consumption associated with brain activity.
State-of-the-art instruments, with high-performance imaging gradients, 64-channel receive coils, and the latest GPU enabled image reconstruction computers, these dedicated research scanners are supplemented with comprehensive stimulus presentation, participant response, and physiological measurement instrumentation including eye tracking. Keeping the setup practically identical between OHBA and FMRIB, from instrumentation to MRI sequences, allows researchers to run their studies on either system.
Both facilities are also set up to perform concurrent EEG-fMRI, combining the advantages of both techniques (the temporal resolution of EEG and the spatial resolution of MRI), and to process functional MRI in real time for neurofeedback studies.
User Guides and Documents
- MRI Scanning Guide (extensive) and Session Guide (brief)
- Project Code Request Form
- WIN Top-up Form
- Magnet Safety Training
- MRI Stimulus Presentation
- Equipment taken into scanner room (Equipment Protocols)
- 3T Surgery and Implant Safe List
- Scanning Service Agreement
- 3T Volunteer Screening Form (Large Print Version)
- Accessing Medical Notes for Clinical Studies
- Minimum Attendance Policy [FMRIB]
- Magnet Emergency Procedures [FMRIB 3T | OHBA 3T]
- Subject Evacuation Procedure [FMRIB and OHBA 3T]