Guillermo

Vilanova Caicoya

Publications

Journal articles

  1. G. Vilanova, I. Colominas, H. Gomez, A mathematical model of tumour angiogenesis: growth, regression and regrowth, Journal of the Royal Society Interface, 14 (126), 20160918, 2017.
  2. G. Vilanova, I. Colominas, H. Gomez, Computational modeling of tumor-induced angiogenesis, Archives of Computational Methods in Engineering, in press, 2017.
  3. J. Xu, G. Vilanova, H. Gomez, Full-scale, three-dimensional simulation of early-stage tumor growth: The onset of malignancy, Computer Methods in Applied Mechanics and Engineering, 314 126-146, 2017.
  4. G. Lorenzo, M. Scott, K. Tew, T.J.R. Hughes, Y.J. Zhang, L. Liu, G. Vilanova, H. Gomez, Tissue-scale, personalized modeling and simulation of prostate cancer growth, Proceedings of the National Academy of Sciences, 103 (48) E7663–E7671, 2016.
  5. J. Xu, G. Vilanova, H. Gomez, A mathematical model coupling tumor growth and angiogenesis, PLoS ONE, 11 (2) e0149422, 2016.
  6. G. Vilanova, I. Colominas, H. Gomez, Coupling of discrete random walks and continuous modeling for three-dimensional tumor-induced an­gio­genesis, Com­pu­ta­tional Mechanics, 53 (3) 449-464, 2014.
  7. G. Vilanova, I. Colominas, H. Gomez, Capillary networks in tumor angiogenesis: From discrete endothelial cells to averaged phase-field descriptions via isogeometric analysis, International Journal for Numerical Methods in Biomedical Engineering, 29 (10) 1015-1037, 2013.
  8. G. Vilanova, H. Gomez, I. Colominas, A numerical study based on the finite element method of a multiscale continuum model of tumor angiogenesis, Journal of Biomechanics, 45 S466, 2012.


Posters

  1. Towards patient-specific simulations and validation of a tumor angiogenesis model using isogeometric analysis, presented at "Isogeometric Analysis: Integrating Design and Analysis" and awarded in the poster competition.
  2. An isogeometric-analysis based numerical method for tumor angiogenesis, presented at "The First NEMB Venice workshop on Cancer Nanotechnology".