Topological Clustering of Aphasic Brain Networks

Jiaying Yi; Jian Yin; Rahul Ghosal; Dirk B. den Ouden; Julius Fridriksson; Rutvik Desai; Yuan Wang

Topological Clustering of Aphasic Brain Networks

Jiaying Yi, Jian Yin, Rahul Ghosal, Dirk B. den Ouden, Julius Fridriksson, Rutvik Desai, Yuan Wang

Published: 23 Sept 2025, Last Modified: 24 Oct 2025NPGML PosterEveryoneRevisionsBibTeXCC BY 4.0

Keywords: Topological Data Analysis, Topological Clustering, Brain Network, Aphasia Subtyping

TL;DR: This paper introduces a topological clustering framework for resting-state brain networks to identify aphasia subtypes and track post-stroke recovery beyond behavioral measures.

Abstract: Topological data analysis (TDA) is a powerful tool for detecting hidden structures in complex data like biological signals and networks. A key TDA algorithm, persistent homology (PH), captures multi-scale topological features in data robust to noise, as summarized by persistence diagrams (PDs). However, the non-Euclidean nature of PDs complicates traditional analysis. Recent topological inference methods use heat kernel (HK) expansion of PDs in multi-group permutation tests. Extending the topological inference methods, we develop a topological clustering framework based on HK expansion of PDs. This flexible framework allows the incorporation of Euclidean covariates into topological clustering, as well as an automated data-driven selection procedure for identifying the optimal number of topological clusters and most significant covariates associated with them. We demonstrate our method's effectiveness in cluster detection with varying degrees of topological dissimilarity through simulations of signals and point clouds in comparison to state-of-the-art functional and topological clustering methods, as well as applications to subtyping and treatment outcome exploration in post-stroke aphasia.

Submission Number: 37

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