Biomedical Engineering Reference
In-Depth Information
Ouchi, N.B., Glazier, J.A., Rieu, J.P., Upadhyaya, A., Sawada, Y.: Improving the realism of the
cellular potts model in simulations of biological cells. Phys. A 329(3-4), 451-458 (2003)
Owen, M.R., Alarcon, T., Maini, P.K., Byrne, H.M.: Angiogenesis and vascular remodelling in
normal and cancerous tissues. J. Math. Biol. 58, 689-721 (2009)
Palferman, T.G.:Bone and joint diseases around the world. The UK perspective. J. Rheumatol.
67, 33 (2003). ISSN:0315-162X
Passman, S.L., Nunziato, J.W.: A theory of multiphase mixtures. In: Truesdell, C. (ed.) Rational
Thermodynamics. Springer, New York (1984)
Pitt-Francis, J., Pathmanathan, P., Bernabeu, M.O., Bordas, R., Cooper, J., Fletcher, A.G.,
Osborne, J.M., Walter, A., Chapman, S.J., Garny, A., Leeuwen, I.M.M., Van Maini, P.K.,
Rodriguez, B., Waters, S.L., Whiteley, J.P., Byrne, H.M., Gavaghan, D.: Chaste: a test-driven
approach to software development for biological modelling. Comp. Phys. Comm. 180(12),
2452-2471 (2000)
Please, G., McElwain, D.L.S.: A new approach to modelling the formation of necrotic regions in
tumours. Appl. Math. Lett. 11(3), 89-94 (1998)
Please, C.P., Pettet, G.J., McElwain, D.L.S.: Avascular tumour dynamics and necrosis. Math.
Models Meth. Appl. Sci. 9(4), 569-580 (1999)
Preziosi, L., Tosin, A.: Multiphase modelling of tumour growth and extracellular matrix
interaction: mathematical tools and applications. J. Math. Biol. 58(4), 625-656 (2009)
Raimondi, M.T., Boschetti, F., Falcone, L., Migliavacca, F., Remuzzi, A., Dubini, G.: The effect
of media perfusion on three-dimensional cultures of human chondrocytes: integration of
experimental and computational approaches. Biorheology 41, 401-410 (2004)
Riccalton-Banks, L., Liew, C., Bhandari, R., Fry, J., Shakesheff, K.: Long-term culture of
functional liver tissue: three-dimensional coculture of primary hepatocytes and stellate cells.
Tissue Eng. 9(3), 401-410 (2003)
Ricken, T., Bluhm, J.: Remodeling and growth of living tissue: a multiphase theory. Arch. Appl.
Mech. 80(5), 453-465 (2010)
Risbud, M.V., Sittinger, M.: Tissue engineering: advances in in vitro cartilage generation. Trends
Biotech. 20(8), 351-356 (2002)
Roelofsen, J., Klein-Nulend, J., Burger, E.H.: Mechanical stimulation by intermittent hydrostatic
compression promotes bone-specific gene expression in vitro. J. Biomech. 28(12), 1493-1503
(1995)
Roose, T., Netti, P.A., Munn, L.L., Boucher, Y., Jain, R.K.: Solid stress generated by spheroid
growth estimated using a linear poroelasticity model. Microvasc. Res. 66(3), 204-212 (2003)
Salgado, A.J., Coutinho, O.P., Reis, R.L.: Bone tissue engineering: state of the art and future
trends. Macromol. Biosci. 4, 743-765 (2004)
Sawyer, N.B.E., Worrall, L.K., Crowe, J.A., Waters, S.L., Shakesheff, K.M., Rose, F.R.A.J.,
Morgan, S.P.: In situ monitoring of 3d in vitro cell aggregation using an optical imaging
system. Biotech. Bioeng. 100(1), 159-167 (2007)
Schwartz, L.W.: Instability and fingering in a rotating hele-shaw cell. Phys. Fluids A 1, 167-169
(1989)
Shakeel, M., Matthews, P.C., Waters, S.L. Graham, R.S.: A continuum model of cell proliferation
and nutrient transport in a perfusion bioreactor. Math. Med. Biol. doi:
10.1093/imammb/
dqr022
(2011)
Shipley R.J. and Waters S.L., (2011) Fluid and mass transport modelling to drive design of cell-
packed
hollow
fibre
bioreactors
for
tissue
engineering
applications.
Math.
Med.
Biol.
Accepted.
Shipley, R.J., Jones, G.W., Dyson, R.J., Sengers, B.G., Bailey, C.L., Catt, C.J., Please, C.P.,
Malda,
J.:
Design
criteria
for
a
printed
tissue
engineering
construct:
a
mathematical
homogenization approach. J. Theor. Biol. 259(3), 489-502 (2009)
Shipley, R.J., Waters, S.L., Ellis, M.J.: Definition and validation of operating equations for
poly(vinyl alcohol)-poly(lactide-co-glycolide) microfiltration membrane-scaffold bioreactors.
Biotech. Bioeng. 107, 382-392 (2010)
Search WWH ::
Custom Search