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Research at St Andrews

Mechanical models of pattern and form in biological tissues: the role of stress-strain constitutive equations (code)

Research output: Non-textual formSoftware

Author(s)

Chiara Villa, Mark Andrew Joseph Chaplain, Alf Gerisch, Tommaso Lorenzi

School/Research organisations

Details

Original languageEnglish
PublisherGitLab
Publication statusPublished - 2021

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  1. Mechanical models of pattern and form in biological tissues: the role of stress-strain constitutive equations

    Villa, C., Chaplain, M. A. J., Gerisch, A. & Lorenzi, T., 26 May 2021, In: Bulletin of Mathematical Biology. 83, 38 p., 80.

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  2. Modeling the emergence of phenotypic heterogeneity in vascularized tumors

    Villa, C., Chaplain, M. A. & Lorenzi, T., 2021, In: SIAM Journal on Applied Mathematics. 81, 2, p. 434-453 20 p.

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  3. Evolutionary dynamics in vascularised tumours under chemotherapy: mathematical modelling, asymptotic analysis and numerical simulations

    Villa, C., Chaplain, M. A. J. & Lorenzi, T., 6 Oct 2020, (E-pub ahead of print) In: Vietnam Journal of Mathematics. First Online

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  4. A novel 3D atomistic-continuum cancer invasion model: in silico simulations of an in vitro organotypic invasion assay

    Franssen, L. C., Sfakianakis, N. & Chaplain, M. A. J., 7 Aug 2021, In: Journal of Theoretical Biology. 522, 14 p., 110677.

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  5. Calibrating models of cancer invasion: parameter estimation using approximate Bayesian computation and gradient matching

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