José Manuel García Aznar
Orcid: 0000-0002-9864-7683Affiliations:
- University of Zaragoza, Aragon Institute for Engineering Research, Spain
According to our database1,
José Manuel García Aznar
authored at least 17 papers
between 2004 and 2023.
Collaborative distances:
Collaborative distances:
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Bibliography
2023
A multiscale orchestrated computational framework to reveal emergent phenomena in neuroblastoma.
Comput. Methods Programs Biomed., November, 2023
Tumour growth: An approach to calibrate parameters of a multiphase porous media model based on <i>in vitro</i> observations of Neuroblastoma spheroid growth in a hydrogel microenvironment.
Comput. Biol. Medicine, June, 2023
2022
A finite element based optimization algorithm to include diffusion into the analysis of DCE-MRI.
Eng. Comput., 2022
A 3D multi-agent-based model for lumen morphogenesis: the role of the biophysical properties of the extracellular matrix.
Eng. Comput., 2022
2021
Extracellular matrix density regulates the formation of tumour spheroids through cell migration.
PLoS Comput. Biol., 2021
2020
Raw data used in the manuscript "The use of mixed collagen-Matrigel matrices of increasing complexity recapitulates the biphasic role of cell adhesion in cancer cell migration: ECM sensing, remodeling and forces at the leading edge of cancer invasion".
Dataset, February, 2020
2019
Balance of mechanical forces drives endothelial gap formation and may facilitate cancer and immune-cell extravasation.
PLoS Comput. Biol., 2019
An iterative finite element-based method for solving inverse problems in traction force microscopy.
Comput. Methods Programs Biomed., 2019
2018
A web-based application for automated quantification of chemical gradients induced in microfluidic devices.
Comput. Biol. Medicine, 2018
2016
Comput. Biol. Medicine, 2016
Adv. Model. Simul. Eng. Sci., 2016
Numerical simulation of solid deformation driven by creeping flow using an immersed finite element method.
Adv. Model. Simul. Eng. Sci., 2016
2009
Computational modelling of bone cement polymerization: Temperature and residual stresses.
Comput. Biol. Medicine, 2009
Appearance and location of secondary ossification centres may be explained by a reaction-diffusion mechanism.
Comput. Biol. Medicine, 2009
2006
Math. Comput. Simul., 2006
2004
Computer simulation of an adaptive damage-bone remodeling law applied to three unit-bone bars structure.
Comput. Biol. Medicine, 2004