The researchers also found they could predict which players had depression by
examining images of their brains» white matter, suggesting a link between white matter changes and depression.
Not exact matches
More praise for the yummy stuff resulted from
brain researcher Todd Parrish
of Northwestern University in 2009, when he
examined functional magnetic resonance
images of gum chewers and found increased activity in areas
of the
brain associated with memory and emotional responses.
While
examining colorful 3 - D
brain images, Stanford psychology graduate student Jason Yeatman spotted a part
of the
brain he'd never learned about in class.
Set up as a mock - trial, the session was designed to
examine the increasingly common dilemma
of whether evidence such as MRI
images, which can be used to see damage in the
brain such as lesions or tumors, should be entered into court cases.
They compared and analyzed magnetic resonance imaging (MRI)
brain images of 1,680 healthy individuals and 884 patients with schizophrenia from 11 research institutes participating in Cognitive Genetics Collaborative Research Organization (COCORO), and
examined the differences between schizophrenia and healthy controls in the subcortical regional volumes and their asymmetries.
«To
examine the connectivity from any one site to other
brain regions, we used a data base
of functional MRI
images and a technique that enables you to see correlations in spontaneous
brain activity.»
Her lab
examines how and why real tangible objects are processed and represented differently in the human
brain compared to representations
of objects, such as two - dimensional (2 - D) computerized
images, three - dimensional (3 - D) stereo
images, and immersive «virtual» reality displays.
METHODS AND RESULTS: Immunohistochemistry and digital
image analysis was used to
examine the detailed localization
of beta - amyloid (42)(A beta 42), a major component
of amyloid plaques, in the entorhinal cortex and hippocampus
of AD
brains.
This study
examined the relationship between
brain connectivity and the development
of cognitive executive function.The researchers
imaged a group
of 882 subjects between the ages
of 8 and 22.