There are also experimental techniques, such
as functional magnetic resonance imaging, which allow us to understand which parts of the brain are most active when we are involved in different cognitive activities.
In their study the researchers showed different characters to test persons and recorded
via functional magnetic resonance imaging the brain activity which was set into motion by the process of seeing.
At the start of the study, all the participants did some Web searching while the scientists monitored their brain activity
by functional magnetic resonance imaging.
One abnormality that researchers have observed
in functional magnetic resonance imaging scans of the brains of people with schizophrenia is an unusually low level of activity from a specific group of neurons near the brain stem.
Each participant completed a series of mental health questionnaires and underwent a type of non-invasive brain scan
called functional Magnetic Resonance Imaging (fMRI) while engaged in tasks meant to activate specific regions of the brain.
Within a week of the home visit, the participants
underwent functional magnetic resonance imaging scanning to determine how their brains reacted to the videotapes of themselves with their infants.
Cognitive neuroscientists at the Beckman Institute of the University of Illinois at Urbana - Champaign and at Wayne State University in Detroit analyzed
functional magnetic resonance images of the brains of 55 volunteers ranging in age from 55 to 79.
The very high - tech stuff we rely on
includes functional magnetic resonance imaging, magnetic encephalography, and some very, very sophisticated electroencephalography — one of the techniques used to test so - called guilty knowledge.
University of California, Irvine - led researchers, however, have found that high -
resolution functional magnetic resonance imaging of the brain can be used to show some of the underlying causes of differences in memory proficiency between older and younger adults.
Galván and Sarah Tashjian, first author and a UCLA doctoral student in psychology, evaluated 60 people from Los Angeles in two groups and
conducted functional magnetic resonance imaging brain scans at UCLA's Staglin Center for Cognitive Neuroscience.
To detect this relationship, the Neuroscience study
compared functional magnetic resonance imaging (fMRI) brain scans of 78 men and women between 18 and 40 years old with those subjects» performance on tests of cognitive performance that required «fluid intelligence» and «cognitive control.»
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.
In 2015 Oxford pediatric neuroscientist Rebeccah Slater and her colleagues published a
pioneering functional magnetic resonance imaging (fMRI) study showing infants» brains respond to painful stimuli very similarly to those of adults.
Researchers are examining brain activity by means of
functional Magnetic Resonance Imagery (fMRI) and positron emission tomography (PET) to differentiate between patients in the two states.
Recent functional magnetic resonance imaging studies have shown that the brain lights up differently before, during and after writing, notes James Pennebaker, a psychologist at the University of Texas at Austin.
The fNIRS scans indicated that the concussed brain activated at a lower threshold and drew from a wider area — a sharp contrast from
earlier functional magnetic resonance imaging (fMRI) studies using concussion patients.
Unlike functional magnetic resonance imaging (fMRI), which is commonly used to measure brain activity, MEG can reveal the precise timing of neural activity, down to the millisecond.
Phrases with «functional magnetic resonance»