Sentences with phrase «functional near infrared»

Using functional near infrared spectroscopy (fNIRS), Kessler Foundation researchers have shown differential brain activation patterns between people with multiple sclerosis (MS) and healthy controls.

The article, «Neuroimaging and cognition using functional near infrared spectroscopy (fNIRS) in multiple sclerosis,» was published online on June 11 by Brain Imaging and Behavior.

You can do more than measure brain activity with functional near infrared spectroscopy.

Software interprets the signal from this functional near infrared spectroscopy (fNIRS) and uses it to assign me the right level of work.

For this research brain activity is also being recorded using a technique called functional near infrared spectroscopy (fNIRS), which uses light to measure changes in blood concentration in the prefrontal cortex, it is a non-invasive and highly portable technique meaning it can be easily interchanged between car and simulator.

Because these functions are largely regulated in the frontal brain regions, a portable brain - imaging device (functional near infrared spectroscopy) was used to examine associated changes in the frontal brain function by placing biosensors on students» foreheads during testing.

The findings from the optical - imaging research, employing functional near infrared spectroscopy (fNIRS), provided preliminary support for the tool as a low - cost, portable device for imaging sports and military concussions, researchers said.

Activity in the PFC region of the mens» brains was measured throughout the test using a unique neuroimaging technique called functional near infrared spectroscopy or fNIRS.

The researchers used functional near - infrared spectroscopy, a technology that measures oxygenation in regions of the brain using light, to assess the babies» brain activity.

At the same time, the team monitored the brain activity of the dreamers using functional MRI scanning or near - infrared spectroscopy by turns.

NIRSIT, a functional near - infrared spectroscopy neuroimaging device, is set to change the landscape of neuroscience research and the medical sector by offering high spatial resolution as well as high temporal resolution in a portable and wireless manner.

Common methods include positron emission tomography (PET), functional magnetic resonance imaging (fMRI), multichannel electroencephalography (EEG) or magnetoencephalography (MEG), and near infrared spectroscopic imaging (NIRSI).

They reviewed brain imaging and electrophysiological studies, including electroencephalography (EEG), functional magnetic resonance imaging (fMRI), functional near - infrared spectroscopy (fNIRS), and transcranial magnetic stimulation (TMS).

«To monitor the newborns» brain activity we used a non-invasive technique, i.e., functional near - infrared spectroscopy,» explains Marina Nespor, a SISSA neuroscientist who participated in the study.

Conducted at the University of Iowa, this is the first neuroimaging study to use a cutting - edge technique — functional near - infrared spectroscopy (fNIRS)-- to enable researchers to track real time changes in brain activity as participants made these two types of stone tools.

The use of functional near - infrared spectroscopy technology allows researchers to measure brain activity in real time as volunteers craft ancient hand tools.

Both are addressed by recent developments that include: 1) a novel hyperscanning technology (functional near - infrared spectroscopy, fNIRS) that acquires hemodynamic signals simultaneously between two naturally interacting partners using a spectral absorbance technique that detects changes in hemodynamic signals acquired by surface - mounted optodes, and 2) a recently proposed Interactive Brain Hypothesis that establishes a broad theoretical framework for two - person social neuroscience.

Researchers made use of fNIRS (functional near - infrared spectroscopy) technology for measuring blood flow in the regions of the brain associated with rewards while individuals who participated in the study completed various art creation projects.

Using a technology called functional Near - InfraRed Spectroscopy (fNIRS), which uses infrared light to track changes in blood oxygen in different parts of the brain to provide a measure of what brain regions are becoming more activated (consuming more oxygen) during certain tasks, the investigation will compare the brain patterns of children with ASD and typical children who have similar imitation scores and eyetracking patterns, to determine whether children with ASD process the same imitation tasks differently from typically developing children, at the level of their brain aInfraRed Spectroscopy (fNIRS), which uses infrared light to track changes in blood oxygen in different parts of the brain to provide a measure of what brain regions are becoming more activated (consuming more oxygen) during certain tasks, the investigation will compare the brain patterns of children with ASD and typical children who have similar imitation scores and eyetracking patterns, to determine whether children with ASD process the same imitation tasks differently from typically developing children, at the level of their brain ainfrared light to track changes in blood oxygen in different parts of the brain to provide a measure of what brain regions are becoming more activated (consuming more oxygen) during certain tasks, the investigation will compare the brain patterns of children with ASD and typical children who have similar imitation scores and eyetracking patterns, to determine whether children with ASD process the same imitation tasks differently from typically developing children, at the level of their brain activity.