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Robust automated calcification meshing for biomechanical cardiac digital twins

Robust automated calcification meshing for biomechanical cardiac digital twins
Robust automated calcification meshing for biomechanical cardiac digital twins
Calcification has significant influence over cardiovascular diseases and interventions. Detailed characterization of calcification is thus desired for predictive modeling, but calcified heart meshes for physics-driven simulations are still often reconstructed using manual operations. This poses a major bottleneck for large-scale adoption of computational simulations for research or clinical use. To address this, we propose an end-to-end automated meshing algorithm that enables robust incorporation of patient-specific calcification onto a given heart mesh. The algorithm provides a substantial speed-up from several hours of manual meshing to $\sim$1 minute of automated computation, and it solves an important problem that cannot be addressed with recent template registration-based heart meshing techniques. We validated our final calcified heart meshes with extensive simulations, demonstrating our ability to accurately model patient-specific aortic stenosis and Transcatheter Aortic Valve Replacement. Our method may serve as an important tool for accelerating the development and usage of physics-driven simulations for cardiac digital twins.
cs.CE, cs.CV
Pak, Daniel H.
a7a9cd7b-9929-4098-abc5-46056c5cd9a9
Liu, Minliang
47979ae7-213a-4303-ac59-c33356d5c4b5
Kim, Theodore
a11b94dc-7b5a-4e06-bab1-8f30ff3645ba
Ozturk, Caglar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
McKay, Raymond
ed1ef623-99c1-4186-8d19-74f4131023d8
Roche, Ellen T.
63e632c8-d821-4c2f-a728-aaf331a5c2a1
Gleason, Rudolph
a390dc08-eb59-4e54-9b36-ba81de14037e
Duncan, James S.
60a509c0-834e-4ee2-8600-9b3cd4a8215b
Pak, Daniel H.
a7a9cd7b-9929-4098-abc5-46056c5cd9a9
Liu, Minliang
47979ae7-213a-4303-ac59-c33356d5c4b5
Kim, Theodore
a11b94dc-7b5a-4e06-bab1-8f30ff3645ba
Ozturk, Caglar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
McKay, Raymond
ed1ef623-99c1-4186-8d19-74f4131023d8
Roche, Ellen T.
63e632c8-d821-4c2f-a728-aaf331a5c2a1
Gleason, Rudolph
a390dc08-eb59-4e54-9b36-ba81de14037e
Duncan, James S.
60a509c0-834e-4ee2-8600-9b3cd4a8215b

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

Calcification has significant influence over cardiovascular diseases and interventions. Detailed characterization of calcification is thus desired for predictive modeling, but calcified heart meshes for physics-driven simulations are still often reconstructed using manual operations. This poses a major bottleneck for large-scale adoption of computational simulations for research or clinical use. To address this, we propose an end-to-end automated meshing algorithm that enables robust incorporation of patient-specific calcification onto a given heart mesh. The algorithm provides a substantial speed-up from several hours of manual meshing to $\sim$1 minute of automated computation, and it solves an important problem that cannot be addressed with recent template registration-based heart meshing techniques. We validated our final calcified heart meshes with extensive simulations, demonstrating our ability to accurately model patient-specific aortic stenosis and Transcatheter Aortic Valve Replacement. Our method may serve as an important tool for accelerating the development and usage of physics-driven simulations for cardiac digital twins.

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2403.04998v1 - Author's Original
Available under License Other.
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Published date: 8 March 2024
Keywords: cs.CE, cs.CV

Identifiers

Local EPrints ID: 490903
URI: http://eprints.soton.ac.uk/id/eprint/490903
DOI: doi:10.48550/arXiv.2403.04998
PURE UUID: ef472355-22e2-450e-b8f5-bccc6bbc4436
ORCID for Caglar Ozturk: ORCID iD orcid.org/0000-0002-3688-0148

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Date deposited: 07 Jun 2024 17:47
Last modified: 08 Jun 2024 02:11

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Contributors

Author: Daniel H. Pak
Author: Minliang Liu
Author: Theodore Kim
Author: Caglar Ozturk ORCID iD
Author: Raymond McKay
Author: Ellen T. Roche
Author: Rudolph Gleason
Author: James S. Duncan

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