Continuous and discrete mathematical models of tumor-induced angiogenesis ARA Anderson, MAJ Chaplain Bulletin of mathematical biology 60 (5), 857-899, 1998 | 1373 | 1998 |
Growth of nonnecrotic tumors in the presence and absence of inhibitors HM Byrne, MAJ Chaplain Mathematical biosciences 130 (2), 151-181, 1995 | 492 | 1995 |
Mathematical modelling of dynamic adaptive tumour-induced angiogenesis: clinical implications and therapeutic targeting strategies SR McDougall, ARA Anderson, MAJ Chaplain Journal of theoretical biology 241 (3), 564-589, 2006 | 480 | 2006 |
Mathematical modelling of tumour invasion and metastasis ARA Anderson, MAJ Chaplain, EL Newman, RJC Steele, AM Thompson Computational and mathematical methods in medicine 2 (2), 129-154, 2000 | 463 | 2000 |
Multiscale modelling and nonlinear simulation of vascular tumour growth P Macklin, S McDougall, ARA Anderson, MAJ Chaplain, V Cristini, ... Journal of mathematical biology 58, 765-798, 2009 | 441 | 2009 |
Mathematical modelling of flow through vascular networks: implications for tumour-induced angiogenesis and chemotherapy strategies SR McDougall, ARA Anderson, MAJ Chaplain, JA Sherratt Bulletin of mathematical biology 64 (4), 673-702, 2002 | 380 | 2002 |
Mathematical modelling of cancer cell invasion of tissue: local and non-local models and the effect of adhesion A Gerisch, MAJ Chaplain Journal of theoretical biology 250 (4), 684-704, 2008 | 375 | 2008 |
Growth of necrotic tumors in the presence and absence of inhibitors HM Byrne, MAJ Chaplain Mathematical biosciences 135 (2), 187-216, 1996 | 366 | 1996 |
Single-cell-based models in biology and medicine A Anderson, K Rejniak Springer Science & Business Media, 2007 | 354 | 2007 |
Mathematical modeling of tumor-induced angiogenesis MAJ Chaplain, SR McDougall, ARA Anderson Annu. Rev. Biomed. Eng. 8 (1), 233-257, 2006 | 351 | 2006 |
Avascular growth, angiogenesis and vascular growth in solid tumours: The mathematical modelling of the stages of tumour development MAJ Chaplain Mathematical and computer modelling 23 (6), 47-87, 1996 | 337 | 1996 |
A new mathematical model for avascular tumour growth JA Sherratt, MAJ Chaplain Journal of mathematical biology 43 (4), 291-312, 2001 | 334 | 2001 |
Mathematical modelling of cancer cell invasion of tissue: The role of the urokinase plasminogen activation system MAJ Chaplain, G Lolas Mathematical Models and Methods in Applied Sciences 15 (11), 1685-1734, 2005 | 331 | 2005 |
Mathematical modelling of cancer invasion of tissue: dynamic heterogeneity MAJ Chaplain, G Lolas Networks and Heterogeneous media 1 (3), 399-439, 2006 | 308 | 2006 |
Spatio-temporal pattern formation on spherical surfaces: numerical simulation and application to solid tumour growth MAJ Chaplain, M Ganesh, IG Graham Journal of mathematical biology 42, 387-423, 2001 | 299 | 2001 |
Modeling the influence of the E-cadherin-β-catenin pathway in cancer cell invasion: a multiscale approach I Ramis-Conde, D Drasdo, ARA Anderson, MAJ Chaplain Biophysical journal 95 (1), 155-165, 2008 | 292 | 2008 |
A model mechanism for the chemotactic response of endothelial cells to tumour angiogenesis factor MAJ Chaplain, AM Stuart Mathematical Medicine and Biology: A Journal of the IMA 10 (3), 149-168, 1993 | 266 | 1993 |
Quantifying the Role of Angiogenesis in Malignant Progression of Gliomas: In Silico Modeling Integrates Imaging and Histology KR Swanson, RC Rockne, J Claridge, MA Chaplain, EC Alvord Jr, ... Cancer research 71 (24), 7366-7375, 2011 | 265 | 2011 |
Modelling the role of cell-cell adhesion in the growth and development of carcinomas HM Byrne, MAJ Chaplain Mathematical and Computer Modelling 24 (12), 1-17, 1996 | 262 | 1996 |
A mathematical model of breast cancer development, local treatment and recurrence H Enderling, MAJ Chaplain, ARA Anderson, JS Vaidya Journal of theoretical biology 246 (2), 245-259, 2007 | 255 | 2007 |