Plasticity of cell migration in vivo and in silico
V Te Boekhorst, L Preziosi… - Annual review of cell and …, 2016 - annualreviews.org
Cell migration results from stepwise mechanical and chemical interactions between cells
and their extracellular environment. Mechanistic principles that determine single-cell and …
and their extracellular environment. Mechanistic principles that determine single-cell and …
Bridging from single to collective cell migration: A review of models and links to experiments
A Buttenschön, L Edelstein-Keshet - PLoS computational biology, 2020 - journals.plos.org
Mathematical and computational models can assist in gaining an understanding of cell
behavior at many levels of organization. Here, we review models in the literature that focus …
behavior at many levels of organization. Here, we review models in the literature that focus …
Oncolytic virotherapy for tumours following a Gompertz growth law
Oncolytic viruses are genetically engineered to treat growing tumours and represent a very
promising therapeutic strategy. Using a Gompertz growth law, we discuss a model that …
promising therapeutic strategy. Using a Gompertz growth law, we discuss a model that …
Comparing individual-based models of collective cell motion in a benchmark flow geometry
Collectively coordinated cell migration plays a role in tissue embryogenesis, cancer,
homeostasis and healing. To study these processes, different cell-based modelling …
homeostasis and healing. To study these processes, different cell-based modelling …
Inferring parameters for a lattice-free model of cell migration and proliferation using experimental data
Collective cell spreading takes place in spatially continuous environments, yet it is often
modelled using discrete lattice-based approaches. Here, we use data from a series of cell …
modelled using discrete lattice-based approaches. Here, we use data from a series of cell …
Integrative utilization of microenvironments, biomaterials and computational techniques for advanced tissue engineering
This review aims to propose the integrative implementation of microfluidic devices,
biomaterials, and computational methods that can lead to a significant progress in tissue …
biomaterials, and computational methods that can lead to a significant progress in tissue …
Extended logistic growth model for heterogeneous populations
Cell proliferation is the most important cellular-level mechanism responsible for regulating
cell population dynamics in living tissues. Modern experimental procedures show that the …
cell population dynamics in living tissues. Modern experimental procedures show that the …
Interpreting scratch assays using pair density dynamics and approximate Bayesian computation
Quantifying the impact of biochemical compounds on collective cell spreading is an
essential element of drug design, with various applications including developing treatments …
essential element of drug design, with various applications including developing treatments …
Multiscale mechanobiology: computational models for integrating molecules to multicellular systems
Mechanical signals exist throughout the biological landscape. Across all scales, these
signals, in the form of force, stiffness, and deformations, are generated and processed …
signals, in the form of force, stiffness, and deformations, are generated and processed …
A mathematical model of collective cell migration in a three-dimensional, heterogeneous environment
Cell migration is essential in animal development, homeostasis, and disease progression,
but many questions remain unanswered about how this process is controlled. While many …
but many questions remain unanswered about how this process is controlled. While many …