Advanced imaging techniques generate large datasets capable of describing the structure and kinematics of tissue spreading in embryonic development, wound healing, and the progression of many diseases. These datasets can be integrated with mathematical models to infer biomechanical properties of the system, typically identifying an optimal set of parameters for an individual experiment. However, these methods offer little information on the robustness of the fit and are generally ill-suited for statistical tests of multiple experiments. To overcome this limitation and enable efficient use of large datasets in a rigorous experimental design, we use the approximate Bayesian computation rejection algorithm to construct probability density dist...
In this work we implement approximate Bayesian computational methods to improve the design of a woun...
Developmental biology allows us to answer crucial questions about how patterned, polarized cells can...
Biological systems that contain multiple living cells exhibit complex self-organization during devel...
Advanced imaging techniques generate large datasets that are capable of describing the structure and...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
Living tissues undergo deformation during morphogenesis. In this process, cells generate mechanical ...
In this work we implement approximate Bayesian computational methods to improve the design of a woun...
Living tissues undergo deformation during morphogenesis. In this process, cells generate mechanical ...
We propose a three dimensional mechanical model of embryonic tissue dynamics. Mechanically coupled a...
AbstractTo understand the morphogenetic mechanisms of organ development and regeneration, it is esse...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
Wound healing and tumour growth involve collective cell spreading, which is driven by individual mot...
Spatial models of collective cell behaviour are often based on reaction-diffusion models that descri...
Cellular migration plays a crucial role in many aspects of life and development. In this paper, we p...
The ability of cells to migrate through a tissue in the human body is vital for many processes such ...
In this work we implement approximate Bayesian computational methods to improve the design of a woun...
Developmental biology allows us to answer crucial questions about how patterned, polarized cells can...
Biological systems that contain multiple living cells exhibit complex self-organization during devel...
Advanced imaging techniques generate large datasets that are capable of describing the structure and...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
Living tissues undergo deformation during morphogenesis. In this process, cells generate mechanical ...
In this work we implement approximate Bayesian computational methods to improve the design of a woun...
Living tissues undergo deformation during morphogenesis. In this process, cells generate mechanical ...
We propose a three dimensional mechanical model of embryonic tissue dynamics. Mechanically coupled a...
AbstractTo understand the morphogenetic mechanisms of organ development and regeneration, it is esse...
The growth and dynamics of epithelial tissues govern many morphogenetic processes in embryonic devel...
Wound healing and tumour growth involve collective cell spreading, which is driven by individual mot...
Spatial models of collective cell behaviour are often based on reaction-diffusion models that descri...
Cellular migration plays a crucial role in many aspects of life and development. In this paper, we p...
The ability of cells to migrate through a tissue in the human body is vital for many processes such ...
In this work we implement approximate Bayesian computational methods to improve the design of a woun...
Developmental biology allows us to answer crucial questions about how patterned, polarized cells can...
Biological systems that contain multiple living cells exhibit complex self-organization during devel...