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Main Authors: Marcús, Aina Ferrà, Casacuberta, Carles, Vives, Josep, Guich, Joan, Amorós-Figueras, Gerard, Guerra, Jose M.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.18634
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author Marcús, Aina Ferrà
Casacuberta, Carles
Vives, Josep
Guich, Joan
Amorós-Figueras, Gerard
Guerra, Jose M.
author_facet Marcús, Aina Ferrà
Casacuberta, Carles
Vives, Josep
Guich, Joan
Amorós-Figueras, Gerard
Guerra, Jose M.
contents Objective: The Mapper algorithm is a qualitative method in topological data analysis that constructs graphs from point clouds by combining dimensionality reduction and clustering techniques. The aim of this study is to apply Mapper, together with novel quantitative indices, to compare the effects of biventricular pacing from the left ventricular epicardium versus the endocardium in a swine model of pacing-induced non-ischemic cardiomyopathy. Methods: The distributions of four hemodynamic variables from a previous study on endocardial and epicardial cardiac resynchronization in an experimental swine model of nonischemic cardiomyopathy were analyzed using the Mapper algorithm, enhanced with numerical indices quantifying self-connectivity, scattering, and homogeneity of the resulting colored graphs. Results: Statistically significant differences were observed between pacing from basal regions versus mid or apical regions, with the following self-connectivity index values: basal $0.57$; mid $0.14$ ($p < 0.01$); apical $0.24$ ($p < 0.01$). Endocardial stimulation at lateral sites increased the contrast between the distributions of basal versus mid or apical data, when compared with epicardial stimulation. Conclusions: Topological analysis using the Mapper algorithm, enhanced with quantitative statistical measures, revealed new and biologically plausible significant differences in pacing effects across heart regions.
format Preprint
id arxiv_https___arxiv_org_abs_2604_18634
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Topological analysis of hemodynamic response to cardiac resynchronization therapy
Marcús, Aina Ferrà
Casacuberta, Carles
Vives, Josep
Guich, Joan
Amorós-Figueras, Gerard
Guerra, Jose M.
Quantitative Methods
55N31 (Primary) 05C90, 62P10 (Secondary)
Objective: The Mapper algorithm is a qualitative method in topological data analysis that constructs graphs from point clouds by combining dimensionality reduction and clustering techniques. The aim of this study is to apply Mapper, together with novel quantitative indices, to compare the effects of biventricular pacing from the left ventricular epicardium versus the endocardium in a swine model of pacing-induced non-ischemic cardiomyopathy. Methods: The distributions of four hemodynamic variables from a previous study on endocardial and epicardial cardiac resynchronization in an experimental swine model of nonischemic cardiomyopathy were analyzed using the Mapper algorithm, enhanced with numerical indices quantifying self-connectivity, scattering, and homogeneity of the resulting colored graphs. Results: Statistically significant differences were observed between pacing from basal regions versus mid or apical regions, with the following self-connectivity index values: basal $0.57$; mid $0.14$ ($p < 0.01$); apical $0.24$ ($p < 0.01$). Endocardial stimulation at lateral sites increased the contrast between the distributions of basal versus mid or apical data, when compared with epicardial stimulation. Conclusions: Topological analysis using the Mapper algorithm, enhanced with quantitative statistical measures, revealed new and biologically plausible significant differences in pacing effects across heart regions.
title Topological analysis of hemodynamic response to cardiac resynchronization therapy
topic Quantitative Methods
55N31 (Primary) 05C90, 62P10 (Secondary)
url https://arxiv.org/abs/2604.18634