Cellular Potts Model - Bibliography

Cellular Potts Model Bibliography

Nikodem J Poplawski, “Volume and surface constraints in the Cellular Potts Model”, arXiv:physics: 0512129 (2005).

Soma Sanyal, James A. Glazier, “Viscous instabilities in flowing foams: A Cellular Potts Model approach”, arXiv:cond-mat: 0505770 (2005).

Yi Jiang, “Cellular Pattern Formation”, PhD Thesis, University of Notre Dame (1998).

Noriyuki Bob Ouchi, James A. Glazier, Jean-Paul Rieu, Arpita Upadhyaya, and Yasuji Sawa, “Improving the realism of the cellular Potts model in simulations of biological cells”, Physica A 329: 451-458 (2003).

E. Gusatto, J.C.M. Mombach, F.P. Cercato, G.H. Cavalheiro. , “An Efficient Parallel Algorithm to Evolve Simulations of the Cellular Potts Model”, Parallel Processing Letters 15: 199-208 (2005).

Mark Alber, Maria Kiskowski, James Glazier, and Yi Jiang, “On Cellular Automaton Approaches to Modeling Biological Cells”, in IMA 134: Mathematical systems theory in biology, communication, and finance, Springer-Verleg, New York, 12 (2002).

Sharon B. Minsuk, “Toward an Open-Ended and Mechanically Realistic Model of Biological Cells”.

José C.M. Mombach, Damien Robert, François Graner, Germain Gillet, Gilberto L. Thomas, Marco Idiart, Jean-Paul Rieu, “Rounding of aggregates of biological cells: Experiments and simulations”, Physica A 352: 525-534 (2005).

Roeland M. H. Merks and James A. Glazier, “A Cell-Centered Approach to Developmental Biology”, Phys. A 352: 113-130 (2005).

Roeland M.H. Merks, Sergey V. Brodsky, Michael S. Goligorsky, Stuart A. Newman, and James A. Glazier, “Cell elongation is key to in silico replication of in vitro vasculogenesis and subsequent remodeling”, Dev. Biol. 289(1): 44-54 (2006).

Roeland M.H. Merks and James A. Glazier, “Contact-inhibited chemotactic motility can drive both vasculogenesis and sprouting angiogenesis”, arXiv:q-bio: 0505033 (Submitted).

Debasis Dan, Christopher Mueller, Kun Chen, and James A. Glazier, “Solving the advection-diffusion equations in biological contexts using the cellular Potts model”, Physical Review E 72: 041909 (2005).

Rajiv Chaturvedi, ChengBang Huang, Bogdan Kazmierczak, Terry Schneider, Jesus A. Izaguirre, Tilmann Glimm, H. George E. Hentschel, James A. Glazier, Stuart A. Newman, Mark S. Alber, “On multiscale approaches to three-dimensional modelling of morphogenesis”, Journal of the Royal Society Interface 2: 237-253 (2005).

Trevor M. Cickovski, Chengbang Huang, Rajiv Chaturvedi, Tilmann Glimm, H. George E. Hentschel, Mark S. Alber, James A. Glazier, Stuart A. Newman, and Jesús A. Izaguirre, “A Framework for Three-Dimensional Simulation of Morphogenesis”, IEEE/ACM Transactions on Computational Biology and Bioinformatics 2: 1-16 (2005).

Nikodem J. Poplawski, Maciej Swat, J. Scott Gens, James A. Glazier, “Adhesion between cells, diffusion of growth factors, and elasticity of the AER produce the paddle shape of the chick limb”, arXiv:q-bio: 0601009 (2006).

Alber, M.S., M.A. Kiskowski, Y. Jiang, and S.A. Newman, “Biological Lattice Gas Models”, in Dynamics and Bifurcation of Patterns in Dissipative Systems, G. Dangelmayr and I. Oprea (eds.), World Scientific Series on Nonlinear Science 12, World Scientific, Singapore, 2004, 274-291 (2004).

Scott Christley and Xiaorong Xiang, “Agent-based Simulation of Morphogenesis”.