Tisztelt Kollégák! Ezúton szeretnénk meghívni Önöket a HUN-REN TTK Agyi Képalkotó Központ által szervezett alábbi előadásra: Gaining Precision: studying individuals to provide new insights into human brain networks and their role in control Caterina Gratton PhD, Associate Professor Dept. Psychology & Beckman Institute, University of Illinois at Urbana-Champaign Az előadás időpontja: 2025. december 16. 11:00 óra Az előadás helyszíne: HUN-REN TTK földszinti kis konferenciaterme 1117 Budapest, Magyar tudósok körútja 2. Abstract: Different regions of the brain interact with one another through large-scale networks. These network interactions are important to many aspects of cognition, including our ability to control our thoughts and actions in the service of goals. In my lab, we study large-scale network organization in humans and the principles by which this organization can vary — including how these networks are altered with aging and disease processes. One particular innovation in our work has been in the use of 'precision' neuroimaging methods, in which we acquire extensive amounts of data from individuals in order to provide highly reliable and detailed representations of large-scale networks at the single person level. In the presentation, I will review a sampling of recent studies from our lab investigating forms of variation in large-scale networks within and across people. I will then discuss how these variations influence our studies of control. Kapcsolódó közlemények: Hyejin J Lee, Ally Dworetsky, Nathan Labora, Caterina Gratton (2025). Using precision approaches to improve brain-behavior prediction. Trends in Cognitive Sciences 29(2):170-183. Hyejin J Lee, Derek M Smith, Clifford E Hauenstein, Ally Dworetsky, Brian T Kraus, Megan Dorn, Derek Evan Nee, Caterina Gratton (2025). Precise individual measures of inhibitory control. Nature Human Behaviour, 1-18. Ally Dworetsky, Benjamin A Seitzman, Babatunde Adeyemo, Ashley N Nielsen, Alexander S Hatoum, Derek M Smith, Thomas E Nichols, Maital Neta, Steven E Petersen, Caterina Gratton. (2024). Two common and distinct forms of variation in human functional brain networks. Nature Neuroscience 27 (6), 1187-1198. JS Siegel et al. (2024). Psilocybin desynchronizes the human brain. Nature 632 (8023), 131-138. Várunk minden érdeklődőt. Üdvözlettel, Vidnyánszky Zoltán -- Prof. Zoltán Vidnyánszky PhD, DSc Director Brain Imaging Centre Research Centre for Natural Sciences Magyar tudósok körútja 2. 1117 Budapest, Hungary vidnyanszky.zoltan(a)ttk.hu