Not exact matches
In earlier research, Jack's Brain, Mind & Consciousness lab used functional magnetic
resonance imaging to show the brain has an analytical network of neurons that
enables us to think critically and a social network that
enables us to empathize.
The team used iron oxide for the core of the nanoparticles, which not only
enables the team to use them for magnetic
resonance imaging, but opens up possibilities in remote guidance and localized magnetic heating to hasten the breaking up of the clots.
Working closely with the technicians in the Caltech Brain
Imaging Center (the CBIC), we use functional magnetic resonance imaging, or fMRI, to enable us to see bloodflow throughout the
Imaging Center (the CBIC), we use functional magnetic
resonance imaging, or fMRI, to enable us to see bloodflow throughout the
imaging, or fMRI, to
enable us to see bloodflow throughout the brain.
Dr. Raichle's research led to the development and use of positron emission tomography and functional magnetic
resonance imaging, tools that have
enabled scientists to safely and non-invasively study the living human brain and track and record its function in health and disease.
These novel techniques, which include diffusion tensor
imaging (DTI), functional magnetic
resonance imaging (fMRI), and frameless stereotaxy,
enable us to adjust our route to a tumor and remove a tumor with the least amount of damage to critical or sensitive parts of the brain.
Magnetic
resonance techniques
enables a wide range of novel applications in chemistry, physics and biomedical sciences, such as powerful
imaging tools which have revolutionized medicine.
Magnetic
resonance diffusion
imaging and computational tractography are the only technologies that
enable neuroscientists to measure white matter in the living human brain.
Diffusion Tensor
Imaging (DTI) is a non-invasive magnetic resonance imaging (MRI) technique that enables the measurement of diffusion of water molecules along anisotropic fiber b
Imaging (DTI) is a non-invasive magnetic
resonance imaging (MRI) technique that enables the measurement of diffusion of water molecules along anisotropic fiber b
imaging (MRI) technique that
enables the measurement of diffusion of water molecules along anisotropic fiber bundles.