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UID:20250805T002844EDT-1631ifBj15@132.216.98.100
DTSTAMP:20250805T042844Z
DESCRIPTION:The Feindel Brain and Mind Seminar Series will advance the visi
 on of Dr. William Feindel (1918–2014)\, Former Director of the Neuro (1972
 –1984)\, to constantly bridge the clinical and research realms. The talks 
 will highlight the latest advances and discoveries in neuropsychology\, co
 gnitive neuroscience\, and neuroimaging.\n\nSpeakers will include scientis
 ts from across The Neuro\, as well as colleagues and collaborators locally
  and from around the world. The series is intended to provide a virtual fo
 rum for scientists and trainees to continue to foster interdisciplinary ex
 changes on the mechanisms\, diagnosis and treatment of brain and cognitive
  disorders.\n\n\nTo attend in person\, register here\n\nTo watch via Vimeo
 \, click here\n\n\nSaskia Helbling\n\nResearch Associate\, Ernst Strüngman
 n Institute for Neuroscience\, Germany\n\nResearch Associate\, Max Planck 
 Institute for Human Cognitive and Brain Sciences\, Germany\n\nHost: christ
 ine.tardif [at] mcgill.ca (Christine Tardif)\n\nAbstract: Advances in neur
 oimaging and electrophysiology have enabled non-invasive investigation of 
 human brain function at increasingly fine spatial scales. I present three 
 interconnected research projects towards achieving laminar resolution in n
 on-invasive human electrophysiology. First\, I demonstrate how myelin-info
 rmed forward models derived from high-resolution quantitative MRI enhance 
 MEG/EEG source reconstruction. Second\, building on this structural-functi
 onal relationship\, I examine the microstructural foundations of cortical 
 speech tracking. By leveraging high-resolution cortical myelination maps\,
  this approach offers insights into the potential laminar origins of low-f
 requency auditory activity and top-down modulatory signals during speech p
 erception. Finally\, I present a simulation study that investigates the po
 tential of optically pumped magnetometers (OPMs) for inferring laminar ori
 gins of MEG signals\, demonstrating the benefits of on-scalp sensors for l
 aminar inference. These complementary approaches aim to push the boundarie
 s of spatial resolution in non-invasive electrophysiology\, offering new p
 erspectives on cortical layer-specific activity and structure-function rel
 ationships in the human brain.\n
DTSTART:20240923T170000Z
DTEND:20240923T180000Z
LOCATION:De Grandpre Communications Centre\, Montreal Neurological Institut
 e\, CA\, QC\, Montreal\, H3A 2B4\, 3801 rue University
SUMMARY:Feindel Brain and Mind Seminar Series: Steps Towards Laminar Resolu
 tion in Non-invasive Human Electrophysiology
URL:/neuro/channels/event/feindel-brain-and-mind-semin
 ar-series-steps-towards-laminar-resolution-non-invasive-human-358008
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