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Computational framework for the generation of one-dimensional vascular models accounting for uncertainty in networks extracted from medical images.

Authors :
Bartololo MA
Taylor-LaPole AM
Gandhi D
Johnson A
Li Y
Slack E
Stevens I
Turner Z
Weigand JD
Puelz C
Husmeier D
Olufsen MS
Source :
ArXiv [ArXiv] 2024 May 09. Date of Electronic Publication: 2024 May 09.
Publication Year :
2024

Abstract

One-dimensional (1D) cardiovascular models offer a non-invasive method to answer medical questions, including predictions of wave-reflection, shear stress, functional flow reserve, vascular resistance, and compliance. This model type can predict patient-specific outcomes by solving 1D fluid dynamics equations in geometric networks extracted from medical images. However, the inherent uncertainty in in-vivo imaging introduces variability in network size and vessel dimensions, affecting hemodynamic predictions. Understanding the influence of variation in image-derived properties is essential to assess the fidelity of model predictions. Numerous programs exist to render three-dimensional surfaces and construct vessel centerlines. Still, there is no exact way to generate vascular trees from the centerlines while accounting for uncertainty in data. This study introduces an innovative framework employing statistical change point analysis to generate labeled trees that encode vessel dimensions and their associated uncertainty from medical images. To test this framework, we explore the impact of uncertainty in 1D hemodynamic predictions in a systemic and pulmonary arterial network. Simulations explore hemodynamic variations resulting from changes in vessel dimensions and segmentation; the latter is achieved by analyzing multiple segmentations of the same images. Results demonstrate the importance of accurately defining vessel radii and lengths when generating high-fidelity patient-specific hemodynamics models.<br />Competing Interests: Competing Interests The authors declare that they have no competing interests.

Details

Language :
English
ISSN :
2331-8422
Database :
MEDLINE
Journal :
ArXiv
Accession number :
38313199