Result 1 to 20 of 21 total
In silico nanodosimetry: new insights into nontargeted biological responses to radiation. (English)
Comput. Math. Methods Med. 2012, Article ID 147252, 9 p. (2012).
1
Mathematical model of hyperbaric oxygen therapy applied to chronic diabetic wounds. (English)
Bull. Math. Biol. 72, No. 7, 1867-1891 (2010).
2
A model of cell migration within the extracellular matrix based on a phenotypic switching mechanism. (English)
Math. Med. Biol. 27, No. 3, 255-281 (2010).
3
A multiphase model for tissue construct growth in a perfusion bioreactor. (English)
Math. Med. Biol. 27, No. 2, 95-127 (2010).
4
io-port 05807159 Pitt-Francis, Joe;
Pathmanathan, Pras;
Bernabeu, Miguel O.;
Bordas, Rafel;
Cooper, Jonathan;
Fletcher, Alexander G.;
Mirams, Gary R.;
Murray, Philip;
Osborne, James M.;
Walter, Alex;
Chapman, S.Jon;
Garny, Alan;
Van Leeuwen, Ingeborg M.M.;
Maini, Philip K.;
Rodríguez, Blanca;
Waters, Sarah L.;
Whiteley, Jonathan P.;
Byrne, Helen M.;
Gavaghan, David J.
Chaste: A test-driven approach to software development for biological modelling. (English)
Comput. Phys. Commun. 180, No. 12, 2452-2471 (2009).
5
Mathematical modelling of competitive LDL/VLDL binding and uptake by hepatocytes. (English)
J. Math. Biol. 58, No. 6, 845-880 (2009).
6
io-port 50134974 Pitt-Francis, Joe;
Pathmanathan, Pras;
Bernabeu, Miguel O.;
Bordas, Rafel;
Cooper, Jonathan;
Fletcher, Alexander G.;
Mirams, Gary R.;
Murray, Philip;
Osborne, James M.;
Walter, Alex;
Chapman, S. Jon;
Garny, Alan;
Van Leeuwen, Ingeborg M. M.;
Maini, Philip K.;
Rodríguez, Blanca;
Waters, Sarah L.;
Whiteley, Jonathan;
Byrne, Helen M.;
Gavaghan, David
Chaste: A test-driven approach to software development for biological modelling (English)
Computer Physics Communications 180, No. 12, 2452-2471 (2009).
7
A theoretical study of the response of vascular tumours to different types of chemotherapy. (English)
Math. Comput. Modelling 47, No. 5-6, 560-579 (2008).
8
A theoretical study of the response of vascular tumours to different types of chemotherapy (English)
Mathematical and Computer Modelling 47, No. 5-6, 560-579 (2008).
9
Multiscale modelling of tumour growth and therapy: the influence of vessel normalisation on chemotherapy. (English)
Comput. Math. Methods Med. 7, No. 2-3, 85-119 (2006).
10
Modelling the response of spatially structured tumours to chemotherapy: drug kinetics (English)
Mathematical and Computer Modelling 43, No. 7-8, 820-837 (2006).
11
The impact of cell crowding and active cell movement on vascular tumour growth (English)
NHM 1, No. 4, 515-535 (2006).
12
Cancer disease: integrative modelling approaches (English)
ISBI, 806-809 (2006).
13
A multiple scale model for tumor growth. (English)
Multiscale Model. Simul. 3, No. 2, 440-475 (2005).
14
The role of cell-cell interactions in a two-phase model for avascular tumour growth. (English)
J. Math. Biol. 45, No.2, 125-152 (2002).
15
The influence of growth-induced stress from the surrounding medium on the development of multicell spheroids. (English)
J. Math. Biol. 43, No.3, 191-220 (2001).
16
Mathematical modelling of angiogenesis in wound healing: Comparison of theory and experiment. (English)
J. Theor. Med. 2, No.3, 175-197 (2000).
17
A mathematical model to study the effects of drug resistance and vasculature on the response of solid tumors to chemotherapy. (English)
Math. Biosci. 164, No.1, 17-38 (2000).
18
A comparison of the roles of localised and nonlocalised growth factors in solid tumor growth. (English)
Math. Models Methods Appl. Sci. 9, No.4, 541-568 (1999).
19
Mechanisms for stabilisation and destabilisation of systems of reaction-diffusion equations. (English)
J. Math. Biol. 34, No.8, 857-877 (1996).
20
Result 1 to 20 of 21 total
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