Difference between revisions of "Current events"

From LMP Journal Club
Jump to: navigation, search
Line 1: Line 1:
Date: November 2nd
+
Date: November 9th
  
 
Time: 09:30 am
 
Time: 09:30 am
Line 5: Line 5:
 
Place : Gonda 2303
 
Place : Gonda 2303
  
<h4> Title : “Memory allocation mechanisms to trap and activate emotional memories”</h4>
+
<h4> Title : “Content-Specific Fronto-Parietal Synchronization During Visual Working Memory”</h4>
  
'''Speaker: Thomas Rogerson'''
+
'''Speaker: Tristan Shuman'''
  
Summary: ICLM Junior Scientist Lecture Series
+
Abstract:  
 +
Lateral prefrontal and posterior parietal cortical areas exhibit task-dependent activation during working memory tasks in humans and monkeys. Neurons in these regions become synchronized during attention-demanding tasks, but the contribution of these interactions to working memory is largely unknown. Using simultaneous recordings of neural activity from multiple areas in both regions, we find widespread, task-dependent, and content-specific synchronization of activity across the fronto-parietal network during visual working memory. The patterns of synchronization are prevalent among stimulus-selective neurons and are governed by influences arising in parietal cortex. These results indicate that short-term memories are represented by large-scale patterns of synchronized activity across the fronto-parietal network.

Revision as of 20:36, 7 November 2012

Date: November 9th

Time: 09:30 am

Place : Gonda 2303

Title : “Content-Specific Fronto-Parietal Synchronization During Visual Working Memory”

Speaker: Tristan Shuman

Abstract: Lateral prefrontal and posterior parietal cortical areas exhibit task-dependent activation during working memory tasks in humans and monkeys. Neurons in these regions become synchronized during attention-demanding tasks, but the contribution of these interactions to working memory is largely unknown. Using simultaneous recordings of neural activity from multiple areas in both regions, we find widespread, task-dependent, and content-specific synchronization of activity across the fronto-parietal network during visual working memory. The patterns of synchronization are prevalent among stimulus-selective neurons and are governed by influences arising in parietal cortex. These results indicate that short-term memories are represented by large-scale patterns of synchronized activity across the fronto-parietal network.