The following publications are possibly variants of this publication:
- Computational fluid simulations in clinical datasets for understanding thrombus formation before and after left atrial appendage occlusionJordi Mill. PhD thesis, Pompeu Fabra University, Spain, 2022. [doi]
- Deep Learning Surrogate of Computational Fluid Dynamics for Thrombus Formation Risk in the Left Atrial AppendageXabier Morales, Jordi Mill, Kristine A. Juhl, Andy L. Olivares, Guillermo Jiménez-Pérez, Rasmus R. Paulsen, Oscar Camara. miccai 2020: 157-166 [doi]
- Unsupervised Machine Learning Exploration of Morphological and Haemodynamic Indices to Predict Thrombus Formation in the Left Atrial AppendageMarta Saiz-Vivó, Jordi Mill, Josquin Harrison, Guillermo Jiménez-Pérez, Benoit Legghe, Xavier Iriart, Hubert Cochet, Gemma Piella, Maxime Sermesant, Oscar Camara. stacom-ws 2022: 200-210 [doi]
- In-Silico Analysis of the Influence of Pulmonary Vein Configuration on Left Atrial Haemodynamics and Thrombus Formation in a Large CohortJordi Mill, Josquin Harrison, Benoit Legghe, Andy L. Olivares, Xabier Morales, Jérôme Noailly, Xavier Iriart, Hubert Cochet, Maxime Sermesant, Oscar Camara. fimh 2021: 605-616 [doi]
- Centreline-Based Shape Descriptors of the Left Atrial Appendage in Relation with Thrombus FormationIbai Genua, Andy L. Olivares, Etelvino Silva, Jordi Mill, Alvaro Fernandez, Ainhoa Aguado, Marta Nuñez Garcia, Tom de Potter, Xavier Freixa, Oscar Camara. miccai 2019: 200-208 [doi]