The functional
magnetic resonance imaging allowed the researchers to see which areas of the brain were triggered when the task was performed.
Functional
magnetic resonance imaging allows neuroscientists to assess the structure and function of children's brains.
Resting - state functional
magnetic resonance imaging allows investigating whole - brain connectivity changes during pharmacological modulation of the level of consciousness.Low - frequency spontaneous blood oxygen level - dependent fluctuations were measured in 19 healthy volunteers during wakefulness, mild sedation, deep sedation with clinical unconsciousness, and subsequent recovery of consciousness.Propofol - induced decrease in consciousness linearly correlates with decreased corticocortical and thalamocortical connectivity in frontoparietal networks (i.e., default - and executive - control networks).
Not exact matches
New technologies, like functional
magnetic resonance imaging (fMRI),
allow us to look inside the brain when it's in the throes of love — or just mere attachment love.
The EEG signal can be processed quickly,
allowing fast response times, and the instrument is cheaper and more portable than brain - scanning techniques such as
magnetic resonance imaging and positron - emission tomography.
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 addition, fMRI (functional
magnetic resonance imaging)
allows the delineation of detailed neural circuits in the brain involved in complex human behavior.
Until recently, such topics would have been out of the reach of cognitive neuroscience for lack of methods; today, functional
magnetic resonance imaging (fMRI)
allows researchers to watch the brain «in action» as normal human participants make decisions about responsibility and punishment.
The rules of her Ph.D. program
allowed her to carry out her research project anywhere; she decided to study functional
magnetic resonance imaging (fMRI) in the United States.
Oncologists at UC San Diego Moores Cancer Center are the first in San Diego to meld
magnetic resonance imaging (MRI) technology with a traditional ultrasound prostate exam to create a three - dimensional map of the prostate that
allows physicians to view growths that were previously undetectable.
The authors used functional
magnetic resonance imaging to investigate connectivity in two brain networks involved in social processing: theory of mind (ToM, otherwise known as the mentalizing system, which
allows an individual to infer what others are thinking, their beliefs, their intentions) and the mirror neuron system (MNS, which
allows people to understand the meanings and actions of others by simulating and replicating them).
To avoid the noise of the functional
magnetic resonance imaging (fMRI) scanner, the scientists played the sounds between scans to
allow for an undisturbed tone.
One follows him eagerly when he explores the neurophysiology of laughter or
allows himself to be inserted into a
magnetic resonance imaging machine reminiscent of an «oversized clothes drier,» where «the space itself is astonishingly small, and the sense of being encased in a huge piece of machinery unsettles more than you think it will.»
Techniques such as functional
magnetic resonance imaging (fMRI), which highlights metabolically active areas of the brain, now
allow neuroscientists to probe the biology behind bad intentions.
This study was awarded with the Fernand Depelchin Prize of the Université catholique de Louvain (UCL) and
allowed the CHU Neurology Team to continue its research, in particular via the use of functional
Magnetic Resonance Imaging (fMRI) of the brain.
The team used functional
magnetic resonance imaging (fMRI) to scan the brains of each participant as they viewed the warnings,
allowing them to analyze brain activity.
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.
These tests may include additional blood and urine tests and
imaging tests, such as CT (computerized tomography) and MRI (
magnetic resonance imaging) scans, which
allow your provider to look at your adrenal and pituitary glands.
Use of quantitative data from
magnetic resonance imaging (MRI) will
allow us to perform a more appropriate genetic analysis of this important and common disease.
Advanced
imaging techniques like Magnetic resonance Imaging (MRI) allow the clinician to «see» the brain and
imaging techniques like
Magnetic resonance Imaging (MRI) allow the clinician to «see» the brain and
Imaging (MRI)
allow the clinician to «see» the brain and spine.