The regulation of cell growth in animal tissues is a question of critical importance: most tissues contain different types of cells in interconversion and the fraction of each type has to be controlled in a precise way, by mechanisms that remain unclear. Here, we provide a theoretical framework for the homeostasis of stem-cell-containing epithelial tissues using mechanical equations, which describe the size of the tissue and kinetic equations, which describe the interconversions of the cell populations. We show that several features, such as the evolution of stem cell fractions during intestinal development, the shape of a developing intestinal wall, as well as the increase in the proliferative compartment in cancer initiation, can be studi...
Normal human tissue is organized into cell lineages, in which the highly differentiated mature cells...
Intestinal stem cells (ISCs) require well-defined signals from their environment in order to carry o...
Mechanical cell competition is important during tissue development, cancer invasion, and tissue agei...
We present a mechanical model of tissue homeostasis that is specialised to the intestinal crypt. Gro...
The colon's epithelial lining exhibits a number of invaginations into the underlying tissue, called ...
<div><p>Regulation of cell growth and cell division has a fundamental role in tissue formation, orga...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
This article is part of the research topic: Dynamical Models in Plant Genetics and Morphogenesis (Fr...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
Homeostatic balance in the intestinal epithelium relies on a fast cellular turnover, which is coordi...
Understanding the dynamics of cell population allows insight into the control mechanism of the growt...
In vitro culture of intestinal tissue has been attempted for decades. Only recently did Sato et al. ...
The conventional model of intestinal epithelial architecture describes a unidirectional tissue organ...
<div><p>Colorectal tumors originate and develop within intestinal crypts. Even though some of the es...
Cell competition is a phenomenon originally described as the competition between cell populations wi...
Normal human tissue is organized into cell lineages, in which the highly differentiated mature cells...
Intestinal stem cells (ISCs) require well-defined signals from their environment in order to carry o...
Mechanical cell competition is important during tissue development, cancer invasion, and tissue agei...
We present a mechanical model of tissue homeostasis that is specialised to the intestinal crypt. Gro...
The colon's epithelial lining exhibits a number of invaginations into the underlying tissue, called ...
<div><p>Regulation of cell growth and cell division has a fundamental role in tissue formation, orga...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
This article is part of the research topic: Dynamical Models in Plant Genetics and Morphogenesis (Fr...
Regulation of cell growth and cell division has a fundamental role in tissue formation, organ develo...
Homeostatic balance in the intestinal epithelium relies on a fast cellular turnover, which is coordi...
Understanding the dynamics of cell population allows insight into the control mechanism of the growt...
In vitro culture of intestinal tissue has been attempted for decades. Only recently did Sato et al. ...
The conventional model of intestinal epithelial architecture describes a unidirectional tissue organ...
<div><p>Colorectal tumors originate and develop within intestinal crypts. Even though some of the es...
Cell competition is a phenomenon originally described as the competition between cell populations wi...
Normal human tissue is organized into cell lineages, in which the highly differentiated mature cells...
Intestinal stem cells (ISCs) require well-defined signals from their environment in order to carry o...
Mechanical cell competition is important during tissue development, cancer invasion, and tissue agei...