Videos

Giovanni Petri - Informational and topological signatures of individuality - IPAM at UCLA

Presenter
February 13, 2024
Abstract
Recorded 13 February 2024. Giovanni Petri of Northeastern University presents "Informational and topological signatures of individuality" at IPAM's Mathematical Approaches for Connectome Analysis Workshop. Abstract: Network neuroscience is a dominant paradigm for understanding brain function. Functional Connectivity (FC) encodes neuroimaging signals in terms of the pairwise correlation patterns of coactivations between brain regions. However, FC is by construction limited to such pairwise relations. In this seminar, we explore functional activations as a topological space via tools from topological data analysis. In particular, we analyze the resting fMRI data of populations of healthy subjects across ages, and demonstrate that algebraic-topological features extracted from brain activity are effective for brain fingerprinting. By computing persistent homology and constructing topological scaffolds, we show that these features outperform FC in discriminating between individuals and ages. That is, the topological structures are more similar for the same individual across different recording sessions than across individuals. Similarly, we find that topological observables improve discrimination of individuals of different ages. Finally, we show that the regions highlighted by our topological methods are characterized by characteristic patterns of information redundancy and synergy which are not shared by regions that are topologically unimportant, hence establishing a first direct link between topology and information theory in neuroscience. Learn more online at: https://www.ipam.ucla.edu/programs/workshops/mathematical-approaches-for-connectome-analysis/?tab=overview