The non-uniform spatial development of a micrometastasis.
Bloor, Malcolm I.G., Wilson, Michael J. (1999)
Journal of Theoretical Medicine
Similarity:
Bloor, Malcolm I.G., Wilson, Michael J. (1999)
Journal of Theoretical Medicine
Similarity:
Schmitz, Jonathan E., Kansal, Anuraag R., Torquato, Salvatore (2002)
Journal of Theoretical Medicine
Similarity:
Bloor, Malcolm I.G., Wilson, Michael J. (1997)
Journal of Theoretical Medicine
Similarity:
Gevertz, Jana L. (2011)
Computational & Mathematical Methods in Medicine
Similarity:
Cameron, D.A. (1997)
Journal of Theoretical Medicine
Similarity:
Byrne, H.M., Chaplain, M.A.J. (1998)
Journal of Theoretical Medicine
Similarity:
Bellomo, Nicola, De Angelis, Elena, Preziosi, Luigi (2003)
Journal of Theoretical Medicine
Similarity:
A.V. Kolobov, V.V. Gubernov, A.A. Polezhaev (2011)
Mathematical Modelling of Natural Phenomena
Similarity:
A mathematical model of infiltrative tumour growth is investigated taking into account transitions between two possible states of malignant cells: proliferation and migration. These transitions are considered to depend on oxygen level in a threshold manner where high oxygen concentration allows cell proliferation, while concentration below a certain critical value induces cell migration. The infiltrative tumour spreading rate dependence on model parameters is obtained. It is shown that...
Honstvet, Christopher.A., Jones, Pamela F. (2007)
Computational & Mathematical Methods in Medicine
Similarity:
Brazzoli, I., Chauviere, A. (2006)
Computational & Mathematical Methods in Medicine
Similarity:
de Pillis, L.G., Radunskaya, A. (2001)
Journal of Theoretical Medicine
Similarity:
Hedican, Erin B., Kemper, John T., Lanie, Nicole M. (2007)
Computational & Mathematical Methods in Medicine
Similarity: