Thrilled to share that our paper is now online in Science Bulletin!
Check it out here:
https://t.co/PtnPf529D6
Our findings reveal that the lifespan trajectory of brain activity supporting cognitive control follows an inverted U-shape, peaking between ages 27 and 36. @Sci_Bull
Good morning everyone! Happy first day of #sfn2024 . If you're already around, do not miss tonights Early Career poster session for a first look at @IowaControl "youngsters" Guochun and Xitong's work! 630pm, L12 and J1.
Great news: The Cognitive Control Collaborative (@IowaControl) is going to be in full effect at #sfn2024@SfNtweets. Presentation times below.
Bad news: As every year, cognitive control is largely relegated to the last day of the conference.
Change your travel accordingly 🙂
I am very excited to share that our paper has now been published in @Nature. We describe a single-cell correlate of theta-gamma phase amplitude coupling and show how these cells are involved in the cognitive control of working memory storage processes.
https://t.co/pgab0kUGpJ
Main thread:
My first project in CANlab @torwager has finally been published in @NatureNeuro ! In this work, we aimed to take a new look at the brain mechanisms underlying emotion regulation from a slightly different perspective:
https://t.co/vtiGlZOATc
https://t.co/Os6BhAS0cZ @eLife
It finally comes out! Check out our eLife paper that shows our dorsolateral prefrontal cortex encodes different conflicts within an organized cognitive space!
@biorxiv_neursci These findings extend our understanding of how practice is associated with neural and behavioral changes in how tasks are represented and executed to improve performance.
@biorxiv_neursci Further, we found the dorsolateral prefrontal cortex encodes the boundary effect across the transition point, whereas the ventromedial prefrontal cortex and hippocampus show a gradual pattern separation with practice.