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Published May 15, 2020 | Version 1.0.0
Dataset Open

Anatomically Detailed Human Atrial FE Meshes

Authors/Creators

  • 1. Gottfried Schatz Research Center: Division of Biophysics, Medical University of Graz, Graz, Austria
  • 2. Department of Biomedical Engineering, King's College London, London, UK
  • 3. Medical University of Graz
  • 4. Northeastern University, Boston, USA
  • 5. Department of Cardiology, Guy's and St Thomas' Hospitals, London, UK

Description

The left atrium (LA) has a complex anatomy with heterogeneous wall thickness and curvature. We include 3 patient-specific anatomical FE meshes with rule-based myofiber directions of each of the anatomies included in our study (The impact of wall thickness and curvature on wall stress in patient-specific electromechanical models of the left atrium, BMMB, 2020, https://pubmed.ncbi.nlm.nih.gov/31802292/).
Additionally we include
- a noised model with Gaussian noise added (mean 0 um , standard deviation 100 um ) to the initial geometry of patient case 3 and subsequently smoothed using ParaView; and 
- a mesh with a constant wall thickness of 0.5 mm generated based on the endocardial surface of patient case 3.

The meshes are in the binary format for the Cardiac Arrhythmia Research Package simulator, see https://carpentry.medunigraz.at/carputils/index.html and https://opencarp.org. For each of the geometries, we include a list of nodal coordinates (.bpts file), a list of triangular elements (.belem file), fiber fields (.blon file), surface files (*.surf files), and surface points (*.surf.vtx files).

Using the open source mesh manipulation utiliy "MeshTool" (https://bitbucket.org/aneic/meshtool/src/master/README.md)
meshes can be converted to VTK or EnSight file formats.

Files

atrial_meshes.zip

Files (721.5 MB)

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Additional details

Related works

Compiles
Journal article: 10.1007/s10237-019-01268-5 (DOI)

Funding

UK Research and Innovation
Modelling Cardiac Energy Supply during Heart Failure EP/F043929/1
FWF Austrian Science Fund
Mathematical Optimization and Applications in Biomedical Sciences F 32
European Commission
InsiliCardio - Image-based High-resolution In-silico Modeling of Total Cardiac Function 750835
UK Research and Innovation
Understanding the Mechanistic Links Between Mid-Wall Fibrosis and Arrhythmic Risk in Non-Ischemic DCM Using a Combined Modelling & Clinical Approach MR/N011007/1
UK Research and Innovation
Uncertainty Quantification in Prospective and Predictive Patient Specific Cardiac Models EP/P01268X/1
FWF Austrian Science Fund
Personalized Multiphysics Simulations for Honing Cardiac Resynchronization Therapy (PUSHCART) I 2760
UK Research and Innovation
Determination of left atrial wall thickness and its influence on electroanatomic properties in the human atrium MR/N001877/1