Citation: Ara. Anderson et Maj. Chaplain, A MATHEMATICAL-MODEL FOR CAPILLARY NETWORK FORMATION IN THE ABSENCE OF ENDOTHELIAL-CELL PROLIFERATION, Applied mathematics letters, 11(3), 1998, pp. 109-114
Citation: Ara. Anderson et Maj. Chaplain, CONTINUOUS AND DISCRETE MATHEMATICAL-MODELS OF TUMOR-INDUCED ANGIOGENESIS, Bulletin of mathematical biology, 60(5), 1998, pp. 857-899
Citation: Hm. Byrne et Maj. Chaplain, FREE-BOUNDARY VALUE-PROBLEMS ASSOCIATED WITH THE GROWTH AND DEVELOPMENT OF MULTICELLULAR SPHEROIDS, European journal of applied mathematics, 8, 1997, pp. 639-658
Citation: Me. Orme et Maj. Chaplain, 2-DIMENSIONAL MODELS OF TUMOR ANGIOGENESIS AND ANTI-ANGIOGENESIS STRATEGIES, IMA journal of mathematics applied in medicine and biology, 14(3), 1997, pp. 189-205
Citation: Maj. Chaplain et Hm. Byrne, MATHEMATICAL-MODELING OF WOUND-HEALING AND TUMOR-GROWTH - 2 SIDES OF THE SAME COIN, Wounds, 8(2), 1996, pp. 42-48
Authors:
PETTET G
CHAPLAIN MAJ
MCELWAIN DLS
BYRNE HM
Citation: G. Pettet et al., ON THE ROLE OF ANGIOGENESIS IN WOUND-HEALING, Proceedings - Royal Society. Biological Sciences, 263(1376), 1996, pp. 1487-1493
Citation: Hm. Byrne et Maj. Chaplain, MODELING THE ROLE OF CELL-CELL ADHESION IN THE GROWTH AND DEVELOPMENTOF CARCINOMA, Mathematical and computer modelling, 24(12), 1996, pp. 1-17
Citation: Maj. Chaplain, AVASCULAR GROWTH, ANGIOGENESIS AND VASCULAR GROWTH IN SOLID TUMORS - THE MATHEMATICAL-MODELING OF THE STAGES OF TUMOR-DEVELOPMENT, Mathematical and computer modelling, 23(6), 1996, pp. 47-87
Citation: Hm. Byrne et Maj. Chaplain, THE IMPORTANCE OF CONSTITUTIVE-EQUATIONS IN MECHANOCHEMICAL MODELS OFPATTERN-FORMATION, Applied mathematics letters, 9(6), 1996, pp. 85-90
Citation: Hm. Byrne et Maj. Chaplain, EXPLICIT SOLUTIONS OF A SIMPLIFIED MODEL OF CAPILLARY SPROUT GROWTH DURING TUMOR ANGIOGENESIS, Applied mathematics letters, 9(1), 1996, pp. 69-74
Authors:
GOURLEY SA
BRITTON NF
CHAPLAIN MAJ
BYRNE HM
Citation: Sa. Gourley et al., MECHANISMS FOR STABILIZATION AND DESTABILIZATION OF SYSTEMS OF REACTION-DIFFUSION EQUATIONS, Journal of mathematical biology, 34(8), 1996, pp. 857-877
Citation: Nf. Britton et al., THE ROLE OF N-METHYL-D-ASPARTATE (NMDA) RECEPTORS IN WIND-UP - A MATHEMATICAL-MODEL, IMA journal of mathematics applied in medicine and biology, 13(3), 1996, pp. 193-205
Citation: Me. Orme et Maj. Chaplain, A MATHEMATICAL-MODEL OF THE FIRST STEPS OF TUMOR-RELATED ANGIOGENESIS- CAPILLARY SPROUT FORMATION AND SECONDARY BRANCHING, IMA journal of mathematics applied in medicine and biology, 13(2), 1996, pp. 73-98
Citation: Maj. Chaplain et Ara. Anderson, MATHEMATICAL-MODELING, SIMULATION AND PREDICTION OF TUMOR-INDUCED ANGIOGENESIS, Invasion & metastasis, 16(4-5), 1996, pp. 222-234
Citation: Hm. Byrne et Maj. Chaplain, GROWTH OF NECROTIC TUMORS IN THE PRESENCE AND ABSENCE OF INHIBITORS, Mathematical biosciences, 135(2), 1996, pp. 187-216
Citation: Hm. Byrne et Maj. Chaplain, EXPLICIT SOLUTIONS OF A SIMPLIFIED MODEL OF CAPILLARY SPROUT GROWTH DURING TUMOR ANGIOGENESIS, Applied mathematics letters, 8(5), 1995, pp. 71-76
Citation: Hm. Byrne et Maj. Chaplain, MATHEMATICAL-MODELS FOR TUMOR ANGIOGENESIS - NUMERICAL SIMULATIONS AND NONLINEAR-WAVE SOLUTIONS, Bulletin of mathematical biology, 57(3), 1995, pp. 461-486
Citation: Hm. Byrne et Maj. Chaplain, GROWTH OF NONNECROTIC TUMORS IN THE PRESENCE AND ABSENCE OF INHIBITORS, Mathematical biosciences, 130(2), 1995, pp. 151-181
Citation: Maj. Chaplain et al., NONLINEAR DIFFUSION OF A GROWTH-INHIBITORY FACTOR IN MULTICELL SPHEROIDS, Mathematical biosciences, 121(1), 1994, pp. 1-13
Citation: Maj. Chaplain et Bd. Sleeman, MODELING THE GROWTH OF SOLID TUMORS AND INCORPORATING A METHOD FOR THEIR CLASSIFICATION USING NONLINEAR ELASTICITY THEORY, Journal of mathematical biology, 31(5), 1993, pp. 431-473
Citation: Maj. Chaplain et Am. Stuart, A MODEL MECHANISM FOR THE CHEMOTACTIC RESPONSE OF ENDOTHELIAL-CELLS TO TUMOR ANGIOGENESIS FACTOR, IMA journal of mathematics applied in medicine and biology, 10(3), 1993, pp. 149-168
Citation: Maj. Chaplain et Nf. Britton, ON THE CONCENTRATION PROFILE OF A GROWTH-INHIBITORY FACTOR IN MULTICELL SPHEROIDS, Mathematical biosciences, 115(2), 1993, pp. 233-243