Publications by authors named "Gabriel Hassan"
Article Synopsis
- The study explored how local brain rhythms change during acute pain using a method called TMS-EEG, which combines brain stimulation and electrical activity recording.
- It involved 24 participants experiencing both painful heat and non-painful warmth to compare their brain responses in two key regions: the motor cortex (M1) and dorsolateral prefrontal cortex (DLPFC).
- Findings revealed that acute pain reduced α-band activity in M1 and affected phase synchronization in other brain regions, while DLPFC showed localized effects on β1-band power; these changes were linked to individual pain sensitivity, providing insights that could inform pain treatment strategies.
The analysis of spontaneous electroencephalogram (EEG) is a cornerstone in the assessment of patients with disorders of consciousness (DoC). Although preserved EEG patterns are highly suggestive of consciousness even in unresponsive patients, moderately or severely abnormal patterns are difficult to interpret. Indeed, growing evidence shows that consciousness can be present despite either large delta or reduced alpha activity in spontaneous EEG.
View Article and Find Full Text PDFCortical stimulation with single pulses is a common technique in clinical practice and research. However, we still do not understand the extent to which it engages subcortical circuits which contribute to the associated evoked potentials (EPs). Here we find that cortical stimulation generates remarkably similar EPs in humans and mice, with a late component similarly modulated by the subject's behavioral state.
View Article and Find Full Text PDFThe limits of the standard, behaviour-based clinical assessment of patients with disorders of consciousness (DoC) prompted the employment of functional neuroimaging, neurometabolic, neurophysiological and neurostimulation techniques, to detect brain-based covert markers of awareness. However, uni-modal approaches, consisting in employing just one of those techniques, are usually not sufficient to provide an exhaustive exploration of the neural underpinnings of residual awareness. This systematic review aimed at collecting the evidence from studies employing a multimodal approach, that is, combining more instruments to complement DoC diagnosis, prognosis and better investigating their neural correlates.
View Article and Find Full Text PDFArticle Synopsis
- Pain-related changes in brain activity were studied using a technique that measures motor responses and non-motor area excitability during pain, specifically looking at the dorsolateral prefrontal cortex and primary motor cortex.
- In a study with 24 participants, researchers found that acute pain significantly reduced excitability in both brain regions compared to when participants felt non-painful warmth.
- The results suggested that individual differences in how brain excitability changes during pain could inform personalized treatment approaches for pain management.