Ultra high-resolution fMRI and electrophysiology of the rat primary somatosensory cortex.
Yen-Yu I. ShihYou-Yin ChenHsin-Yi LaiYu-Chieh Jill KaoBai-Chuang ShyuTimothy Q. DuongPublished in: NeuroImage (2013)
Keyphrases
- high resolution
- prefrontal cortex
- human brain
- functional magnetic resonance imaging
- low resolution
- resting state
- brain activity
- super resolution
- basal ganglia
- activation detection
- cortical areas
- functional connectivity
- image processing
- high frequency
- high speed
- data analysis
- resting state fmri
- high resolution images
- patient specific
- cerebral cortex
- information processing
- brain injury
- working memory
- remote sensing
- image super resolution
- healthy subjects
- pattern classification
- brain imaging
- magnetic resonance images
- low resolution images
- event related
- visual cortex
- field of view
- sonar images
- functional mri
- human subjects
- spinal cord
- higher resolution
- satellite images
- atrial fibrillation
- optical imaging
- white matter
- correlation analysis
- inter subject
- brain regions