Cell proliferation assays are routinely used to explore how a low-density monolayer of cells grows with time. For a typical cell line with a doubling time of 12 h (or longer), a standard cell proliferation assay conducted over 24 h provides excellent information about the low-density exponential growth rate, but limited information about crowding effects that occur at higher densities. To explore how we can best detect and quantify crowding effects, we present a suite of in silico proliferation assays where cells proliferate according to a generalised logistic growth model. Using approximate Bayesian computation we show that data from a standard cell proliferation assay cannot reliably distinguish between classical logistic growth and more ...
Quantitative understanding of the kinetics of lymphocyte proliferation and death upon activation wit...
To better understand development, repair and disease progression, it is useful to quantify the behav...
Contact inhibition refers to a reduction in the rate of cell migration and/or cell proliferation in ...
Cell proliferation assays are routinely used to study collective cell behaviour, and can be interpre...
Highlights • New stochastic model of heterogeneous cell migration and proliferation • Continuum limi...
Wound healing and tumour growth involve collective cell spreading, which is driven by individual mot...
Most models of cancer cell population expansion assume exponential growth kinetics at low cell densi...
<div><p><i>In vitro</i> studies and mathematical models are now being widely used to study the under...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
© 2017 Elsevier Ltd Collective cell spreading takes place in spatially continuous environments, yet ...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
Scratch assays are used to study how a population of cells re-colonises a vacant region on a two-dim...
Spatial models of collective cell behaviour are often based on reaction-diffusion models that descri...
We develop a parameter estimation method based on approximate Bayesian computation (ABC) for a stoch...
Quantitative understanding of the kinetics of lymphocyte proliferation and death upon activation wit...
To better understand development, repair and disease progression, it is useful to quantify the behav...
Contact inhibition refers to a reduction in the rate of cell migration and/or cell proliferation in ...
Cell proliferation assays are routinely used to study collective cell behaviour, and can be interpre...
Highlights • New stochastic model of heterogeneous cell migration and proliferation • Continuum limi...
Wound healing and tumour growth involve collective cell spreading, which is driven by individual mot...
Most models of cancer cell population expansion assume exponential growth kinetics at low cell densi...
<div><p><i>In vitro</i> studies and mathematical models are now being widely used to study the under...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
© 2017 Elsevier Ltd Collective cell spreading takes place in spatially continuous environments, yet ...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
Scratch assays are used to study how a population of cells re-colonises a vacant region on a two-dim...
Spatial models of collective cell behaviour are often based on reaction-diffusion models that descri...
We develop a parameter estimation method based on approximate Bayesian computation (ABC) for a stoch...
Quantitative understanding of the kinetics of lymphocyte proliferation and death upon activation wit...
To better understand development, repair and disease progression, it is useful to quantify the behav...
Contact inhibition refers to a reduction in the rate of cell migration and/or cell proliferation in ...