[BIC-announce] FW: FW: Killam Lecture - TODAY - Neuronal circuits for corollary discharge
Jennifer Chew, Ms.
jennifer.chew at mcgill.ca
Tue Jun 8 09:48:45 EDT 2010
Resending to confirm usual time - 4:00 P.M. in the de Grandpre. Jennifer
Jennifer Chew
McConnell Brain Imaging Centre
MNI - WB317
3801 University Street
Montreal, Qc H3A 2B4
Telephone: 514-398-8554
Fax: 514-398-2975
-----Original Message-----
From: bic-announce-bounces at bic.mni.mcgill.ca [mailto:bic-announce-bounces at bic.mni.mcgill.ca] On Behalf Of Jennifer Chew, Ms.
Sent: Tuesday, June 08, 2010 9:20 AM
To: bic-announce at bic.mni.mcgill.ca
Subject: [BIC-announce] FW: Killam Lecture - TODAY - Neuronal circuits for corollary discharge
PLEASE DISCARD IF THIS IS A DUPLICATE. THANK YOU. JENNIFER
Jennifer Chew
McConnell Brain Imaging Centre
MNI - WB317
3801 University Street
Montreal, Qc H3A 2B4
Telephone: 514-398-8554
Fax: 514-398-2975
________________________________
From: MNISTAFF - Montreal Neurological Institute Staff [mailto:MNISTAFF at LISTS.MCGILL.CA] On Behalf Of Enza Ferracane, Ms.
Sent: Tuesday, June 08, 2010 9:07 AM
To: MNISTAFF at LISTS.MCGILL.CA
Subject: Killam Lecture - TODAY
REMINDER
**KILLAM LECTURE**
Marc Sommer from the University of Pittsburg will be today's Killam speaker. His talk is entitled: Neuronal circuits for corollary discharge.
Marc is a highly innovative and technically sophisticated electrophysiologist working in the alert behaving primate. Using single cell recordings, deactivation and electrical stimulation, in monkeys that scan the visual world, he has identified neurons in the brainstem that send ascending signals to cortex via the thalamus and that carry corollary discharges which inform cortex on the characteristics of an eye saccade that has just been generated. This permits the visual system to update its representation of space (remapping) and is critical for both perception and interactions with the surrounds. He routinely records simultaneously, in the alert monkey, from three identified neurons in the frontal lobes, thalamus and superior colliculus, respectively, that participate in controlling and monitoring saccadic eye movement. He identifies where each recorded neurons project to by electrically stimulating its target structure and assuring that the neuron is activated antidrom!
ically. Such techniques are unique in that they permit the construction of circuit diagram where the signals carried in each line are known.
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