Sentences with phrase «functional magnetic resonance imaging studies in»
Practical aspects of conducting large - scale functional magnetic resonance imaging studies in children
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Neuronal correlates of theory of mind and empathy: a functional magnetic resonance imaging study in a nonverbal task
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A study published in Current Biology used functional magnetic resonance imaging (fmri) of the brains of three to seven month old infants to assess brain activity in relationship to sound.
In the new study, the researchers used functional magnetic resonance imaging (fMRI) to record brain responses in sleeping babies while they were presented with emotionally neutral, positive, or negative human vocalizations or nonvocal environmental soundIn the new study, the researchers used functional magnetic resonance imaging (fMRI) to record brain responses in sleeping babies while they were presented with emotionally neutral, positive, or negative human vocalizations or nonvocal environmental soundin sleeping babies while they were presented with emotionally neutral, positive, or negative human vocalizations or nonvocal environmental sounds.
Such differences have been identified in functional magnetic resonance imaging studies of patients with fibromyalgia.25 If severe early breastfeeding - associated pain reflects pain catastrophizing, then aberrations in central nociception pathways may lead to both curtailed breastfeeding and perinatal depression.
Researchers in Sweden and the U.K. landed in the news over the summer, seeming to claim nearly 40,000 functional magnetic resonance imaging (fMRI) studies could be invalid.
A new study in Biological Psychiatry: Cognitive Neuroscience and Neuroimaging using magnetic resonance imaging (MRI) reports a link between reduced functional activation and reduced cortical thickness in the brains of patients with bipolar disorder.
In a study under way at USP's Neuroimaging Laboratory (LIM - 21), the researchers are now seeking to correlate the cognitive profile observed in the two groups of cocaine - dependent patients with decision - making and resting - state brain activity, using functional magnetic resonance imaging (fMRIIn a study under way at USP's Neuroimaging Laboratory (LIM - 21), the researchers are now seeking to correlate the cognitive profile observed in the two groups of cocaine - dependent patients with decision - making and resting - state brain activity, using functional magnetic resonance imaging (fMRIin the two groups of cocaine - dependent patients with decision - making and resting - state brain activity, using functional magnetic resonance imaging (fMRI).
Now comes the remarkable news that neuroscientists have communicated with a man presumed to be in a vegetative state, by studying the activity in his brain with functional magnetic resonance imaging, fMRI.
In this new study and for the first time, scientists used functional magnetic resonance imaging (fMRI) combined with a standard clinical trial design to derive an unbiased brain - based neurological marker to predict analgesia associated with placebo treatment in patients with chronic knee osteoarthritis paiIn this new study and for the first time, scientists used functional magnetic resonance imaging (fMRI) combined with a standard clinical trial design to derive an unbiased brain - based neurological marker to predict analgesia associated with placebo treatment in patients with chronic knee osteoarthritis paiin patients with chronic knee osteoarthritis pain.
So far, studies in this field have mainly been based on functional magnetic resonance imaging (fMRI).
For the present study, researchers used functional magnetic resonance imaging (fMRI) to assess brain response to sensory stimulation in 35 women with fibromyalgia and 25 healthy, age - matched controls.
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.
Dr. Aron and colleagues based their study's conclusions on a neuroimaging study using functional magnetic resonance imaging (fMRI) scanning that measures brain activity by detecting changes in blood flow.
To find out what happens in the brain, fifteen people who like cheese and fifteen who do not were selected and participated in a functional magnetic resonance imaging (fMRI) study.
Sinha and her colleagues used functional magnetic resonance imaging to study brain activity in people exposed to stimuli ranging from highly stressful — images of mutilated bodies or someone pointing a gun — to neutral, such as a chair, table or lamp.
Different types of cognitive tasks spur activity in various regions of the brain, as indicated by studies using functional magnetic resonance imaging (fMRI).
Using functional magnetic resonance imaging (fMRI), an imaging technique that measures brain activity, researchers examined all three groups at the beginning (baseline), middle, and end of the study while participants performed computer - based speed tasks in the scanner.
Brain scans In the study, researchers scanned the brains of 39 depressed patients and 37 healthy people using functional magnetic resonance imaging (fRMI).
But neither data from brain scanners — functional magnetic resonance imaging — nor clinical studies of patients with implanted electrodes have explained exactly how the cells in these face patches work.
Another article in the series tackles incomplete or unusable reports of biomedical research, noting that in 241 functional magnetic resonance imaging studies, fewer than two - thirds reported the number of examinations and their duration; the resolution, coverage, and slice order of images appeared in fewer than half.
The study, published online July 29 in Cerebral Cortex, used functional magnetic resonance imaging, or fMRI, to examine children's brain activity at rest and during two tasks: solving simple math problems and looking at pictures of different faces.
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.
Previous studies have used functional magnetic resonance imaging (fMRI) scans to show that similar areas of the brain are activated when someone is in pain and when they see another person in pain.
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.
Beauchamp and Nath followed up on that study with a new one in which they scanned people's brains with functional magnetic resonance imaging (fMRI) as they played McGurk videos of mismatched sounds and lip movements.
In a study led by psychiatrist Ian Reid of Aberdeen, Schwarzbauer and colleagues performed functional magnetic resonance imaging (fMRI) scans of nine depressed patients before and after ECT.
Mas Herrero is now using a combination of TMS and functional magnetic resonance imaging to determine which specific regions and circuits are responsible of the changes found in this study.
Led by Aarti Nair, a student in the SDSU / UCSD Joint Doctoral Program in Clinical Psychology, the study is the first of its kind, combining functional and anatomical magnetic resonance imaging (fMRI) techniques and diffusion tensor imaging (DTI) to examine connections between the cerebral cortex and the thalamus.
In studying the functional behavior of the brain, from control of muscles to the formation of memories, scientists are using such tools such as electron microscopy, recordings of electrical signals from individual brain cells, and imaging of brain structures and processes using functional magnetic resonance imaging (fMRI), positron emission tomography (PET), and high - resolution optical imaging.
In the current study, Brass and co-author Patrick Haggard, a professor of cognitive neuroscience and psychology at University College London, asked 15 subjects to push a button on a keyboard while undergoing functional magnetic resonance imaging (fMRI) to monitor brain activity; participants were instructed to occasionally skip the action.
For the study, researchers conducted brain scans on 37 healthy smokers (those who smoke more than 10 cigarettes a day) ages 19 to 61 using functional magnetic resonance imaging (fMRI) in two different sessions: 24 hours after biochemically confirmed abstinence and after smoking as usual.
Now a functional magnetic resonance imaging (fMRI) study shows where in the brain the confirmation bias arises and how it is unconscious and driven by emotions.
In a 2006 study by Montague and others, pairs of subjects had their brains scanned using functional magnetic resonance imaging, or MRI, as they played a game requiring them to take turns.
Functional magnetic resonance imaging (fMRI) used in the study showed activity in a part of the brain called the ventral striatum — which has been shown to guide goals based on prior experiences.
To study how music preferences might affect functional brain connectivity — the interactions among separate areas of the brain — Burdette and his fellow investigators used functional magnetic resonance imaging (fMRI), which depicts brain activity by detecting changes in blood flow.
The revolution in neuroscience is often characterized as a revolution in new imaging technology.A long overdue reassessment of neuroimaging machines — in particular the functional magnetic resonance imager — has underlined that what you see is not always what you get.A study published this year in Perspectives on Psychological Science noted that many papers in social neuroscience, the field that examines the neurobiology of social behavior, suffered from faulty analyses that produced «voodoo correlations» in their data.
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.
Using a series of electroencephalography (EEG) and functional magnetic resonance imaging (fMRI) studies, Park plans to go beyond naming the brain region where magnitude processing takes place to identify the anatomy and function of neural pathways involved in magnitude processing and reveal neural mechanisms that support mathematical thinking.
Two studies, published this week in the journal Neuron, employ a slight tweak on functional magnetic resonance imaging (fMRI) known as «fMRI adaptation.»
Functional magnetic resonance imaging (fMRI) was used to study memory - associated activation of medial temporal lobe (MTL) regions in 32 nondemented elderly individuals with mild cognitive impairment
«The administration of lysergic acid diethylamide (LSD) in combination with functional magnetic resonance imaging and real - time eye - tracking offers the unique opportunity to study alterations in self - experience, their relation to social cognition, and the underlying neuropharmacology,» the researchers wrote.
Stress and reward processing in bipolar disorder: a functional magnetic resonance imaging study Berghorst LH, Kumar P, Greve DN, Deckersbach T, Ongur D, Dutra SJ, Pizzagalli DA.
Dr. Raichle's research led to the development and use of positron emission tomography and functional magnetic resonance imaging, tools that have enabled scientists to safely and non-invasively study the living human brain and track and record its function in health and disease.
Common and distinct neural correlates of emotional processing in Bipolar Disorder and Major Depressive Disorder: a voxel - based meta - analysis of functional magnetic resonance imaging studies.
They studied rTMS effects on tactile discrimination accuracy and concomitant rTMS - induced changes in hemodynamic activity measured by functional magnetic resonance imaging (fMRI).
Functional magnetic resonance imaging (fMRI) studies have tended to show limited activation in the anteriormost regions of the hippocampus, providing support for the Moser and Moser model.
Magnetic resonance imaging techniques, including structural imaging (MRI), functional imaging (fMRI), and spectroscopy (MRS), which measures brain chemistry, are noninvasive and thus can be used both in humans and in animals to study multiple aspects of brain structure and function.
Recent studies have shown that it is possible to reliably identify this network in the absence of any task, by resting state functional magnetic resonance imaging connectivity analyses in healthy volunteers.
Specific Clinical / Research Interest: Experimental neuropathology, neurodegenerative disorders, brain aging; Functional anatomy of the cerebral cortex, comparative neuroanatomy; Computer - assisted morphometry, stereology, microscopy; Magnetic resonance microscopy, functional brain imaging Current Students: Tuyen Nguyen (PhD) Postdoctoral Fellows: Camilla Butti, PhD, Timothy Rumbell PhD, Merina Varghese PhD Research Personnel: Bridget Wicinski, Daniel Dickstein Summary of Research Studies: Our research is directed towards the study of selective neuronal vulnerability in dementing illnesses using classical neuropathological as well as modern quantitative immunohistochemicaFunctional anatomy of the cerebral cortex, comparative neuroanatomy; Computer - assisted morphometry, stereology, microscopy; Magnetic resonance microscopy, functional brain imaging Current Students: Tuyen Nguyen (PhD) Postdoctoral Fellows: Camilla Butti, PhD, Timothy Rumbell PhD, Merina Varghese PhD Research Personnel: Bridget Wicinski, Daniel Dickstein Summary of Research Studies: Our research is directed towards the study of selective neuronal vulnerability in dementing illnesses using classical neuropathological as well as modern quantitative immunohistochemicafunctional brain imaging Current Students: Tuyen Nguyen (PhD) Postdoctoral Fellows: Camilla Butti, PhD, Timothy Rumbell PhD, Merina Varghese PhD Research Personnel: Bridget Wicinski, Daniel Dickstein Summary of Research Studies: Our research is directed towards the study of selective neuronal vulnerability in dementing illnesses using classical neuropathological as well as modern quantitative immunohistochemical methods.