Publications by authors named "Silvia L Isabella"
Dystonia is a movement disorder characterized by repetitive muscle contractions, twisting movements, and abnormal posture, affecting 20% of pediatric arterial ischemic stroke (AIS) survivors. Recent studies have reported that children with dystonia are at higher risk of cognitive deficits. The connection between impaired motor outcomes and cognitive impairment in dystonia is not fully understood; dystonia might affect motor control alone, or it could also contribute to cognitive impairment through disruptions in higher-order motor processes.
View Article and Find Full Text PDFMagnetoencephalography and electroencephalography (M/EEG) seed-based connectivity analysis requires the extraction of measures from regions of interest (ROI). M/EEG ROI-derived source activity can be treated in different ways. It is possible, for instance, to average each ROI's time series prior to calculating connectivity measures.
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- Scientists studied how our brain changes when we use artificial limbs, like prosthetics that feel like part of our body.
- They used a trick called the Rubber Hand Illusion to see how our brain reacts when we think an artificial limb is really ours.
- They found that different parts of the brain react at different times, showing that our brain has special ways to help us feel like the artificial limb belongs to us.
Article Synopsis
- - The study investigates the role of auditory-driven gamma synchrony (GS) in neuropsychiatric conditions and examines whether a single EEG electrode can effectively measure GS compared to expensive techniques like MEG.
- - Researchers conducted experiments with 29 healthy subjects, using 3 EEG electrodes alongside a full MEG setup during auditory stimulation to assess GS, focusing on how well the EEG captured brain activity during this process.
- - Results indicated that while comprehensive techniques are ideal for detailed mapping, a single EEG channel can still reliably detect overall GS levels, suggesting its potential use in clinical environments for monitoring brain activity.
Cognitive control of action is associated with conscious effort and is hypothesised to be reflected by increased frontal theta activity. However, the functional role of these increases in theta power, and how they contribute to cognitive control remains unknown. We conducted an MEG study to test the hypothesis that frontal theta oscillations interact with sensorimotor signals in order to produce controlled behaviour, and that the strength of these interactions will vary with the amount of control required.
View Article and Find Full Text PDFOur ability to control and inhibit automatic behaviors is crucial for negotiating complex environments, all of which require rapid communication between sensory, motor, and cognitive networks. Here, we measured neuromagnetic brain activity to investigate the neural timing of cortical areas needed for inhibitory control, while 14 healthy young adults performed an interleaved prosaccade (look at a peripheral visual stimulus) and antisaccade (look away from stimulus) task. Analysis of how neural activity relates to saccade reaction time (SRT) and occurrence of direction errors (look at stimulus on antisaccade trials) provides insight into inhibitory control.
View Article and Find Full Text PDFIn previous studies we have provided evidence that performance in speeded response tasks with infrequent target stimuli reflects both automatic and controlled cognitive processes, based on differences in reaction time (RT) and task-related brain responses (Cheyne et al. 2012, Isabella et al. 2015).
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