Add to ORKGWe investigate morphologies of proliferating cellular tissue using a newly developed numerical simulation model for mechanical cell division. The model reproduces structures of simple multi-cellular organisms via simple rules for selective division and division plane orientation. The model is applied to a bimodal mixture of stiff cells with a low growth potential and soft cells with a high growth potential. In an even mixture, the soft cells develop into a tissue matrix and the stiff cells into a dendrite-like network structure. For soft cell inclusion in a stiff cellular matrix, the soft cells develop to a fast growing tumour like structure that gradually evacuates the stiff cell matrix. With increasing inter-cell friction, the tumour grow...
A key decisive in the understanding of morphogenesis processes concerns the description of the devel...
Cell proliferation affects both cellular geometry and topology in a growing tissue, and hence rules ...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...
We investigate morphologies of proliferating cellular tissue using a newly developed numerical simul...
We investigate morphologies of proliferating cellular tissues using a numerical simulation model for...
Invitation to a keynote lecture (by Taiji Adachi and Dimitrije Stamenovic) for the session "Computat...
International audienceThe physical laws governing the morphogenesis of biological tissues remain lar...
Cell proliferation is a fundamental process underlying embryogenesis, homeostasis, wound healing, an...
Mechanical cell competition is important during tissue development, cancer invasion, and tissue agei...
Understanding the biomechanical properties and the effect of biomechanical force on epithelial cells...
Mechanical cell competition is important during tissue development, cancer invasion, and tissue agei...
<div><p>Geometric and mechanical properties of individual cells and interactions among neighboring c...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
<div><p>Regulation of cell growth and cell division has a fundamental role in tissue formation, orga...
A key decisive in the understanding of morphogenesis processes concerns the description of the devel...
Cell proliferation affects both cellular geometry and topology in a growing tissue, and hence rules ...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...
We investigate morphologies of proliferating cellular tissue using a newly developed numerical simul...
We investigate morphologies of proliferating cellular tissues using a numerical simulation model for...
Invitation to a keynote lecture (by Taiji Adachi and Dimitrije Stamenovic) for the session "Computat...
International audienceThe physical laws governing the morphogenesis of biological tissues remain lar...
Cell proliferation is a fundamental process underlying embryogenesis, homeostasis, wound healing, an...
Mechanical cell competition is important during tissue development, cancer invasion, and tissue agei...
Understanding the biomechanical properties and the effect of biomechanical force on epithelial cells...
Mechanical cell competition is important during tissue development, cancer invasion, and tissue agei...
<div><p>Geometric and mechanical properties of individual cells and interactions among neighboring c...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
<div><p>Regulation of cell growth and cell division has a fundamental role in tissue formation, orga...
A key decisive in the understanding of morphogenesis processes concerns the description of the devel...
Cell proliferation affects both cellular geometry and topology in a growing tissue, and hence rules ...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...