This is the first study to
capture brain imaging of patients who had short cardiac arrests.
Not exact matches
Brain imaging and eye - tracking technology simultaneously captured the brain activity and eye movements of the participants as they memorized and remembered the pict
Brain imaging and eye - tracking technology simultaneously
captured the
brain activity and eye movements of the participants as they memorized and remembered the pict
brain activity and eye movements of the participants as they memorized and remembered the pictures.
Using this
imaging technology, we may be able to
capture more precise and objective measurements of olfactory dysfunction and better understand how changes in these sensory neurons relate to overall health and neurodegeneration in the
brain.»
The scientists used functional magnetic resonance
imaging (fMRI) to
capture neural activity in the insula cortex, a region of the
brain that plays a role in diverse functions such as bodily perception and self - awareness.
Using magnetic resonance
imaging scanners, the researchers
captured a snapshot of the participants»
brain activity as they made their choices.
Neuroscientist Jason Cooperrider and colleagues scanned Grandin's
brain using three different methods: high - resolution magnetic resonance
imaging (MRI), which
captures the structure of the
brain; diffusion tensor
imaging (DTI), a method to trace the connections between
brain regions; and functional MRI, which indicates
brain activity.
While
imaging captures brain activation during specific tasks and therefore may identify general
brain regions that are abnormal in diseases, it does not have that critical cell - level resolution.
Magnetic resonance
imaging (MRI)
captures a detailed three - dimensional picture of the
brain of each subject.
The integration of a novel high spatiotemporal resolution volume
imaging technique and a fast 3D tracking system allows
capturing whole
brain neural activities in a freely behaving larval zebrafish.
Both before as well as after meditation, the
brain activity of each individual was examined making use of arterial spin labeling magnetic resonance
imaging, which allows the
capture of longer duration processes of the
brain like meditation.
«Both before and after meditation training, study participants»
brain activity was examined using a special type of
imaging - arterial spin labeling magnetic resonance
imaging (ASL MRI)- that
captures longer duration
brain processes, such as meditation, better than a standard MRI scan of
brain function.
For example functional magnetic resonance
imaging (fMRI), children with a history of preschool - onset depression demonstrated distinct patterns of
brain activation, which were similar to those of adults with depression.34 Other research documents that DSM - IV criteria for depression do not adequately
capture the disorder's course in preschool - aged children.35 Similar to the heightened awareness regarding preschool depression, evidence suggests that young children can also suffer from post-traumatic stress disorder when age - adjusted diagnostic criteria are employed.36
To
capture changes in
brain development,
imaging technology is being used, which provides a non-invasive way to examine differences in
brain morphology and physiology.