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Literature DB >> 20177685

An age-structured model of epidermis growth.

Alberto Gandolfi¹, Mimmo Iannelli, Gabriela Marinoschi.

Abstract

We propose a model with age and space structure for the evolution of the supra-basal epidermis. The model includes different types of cells: proliferating cells, differentiated cells, corneous cells, and apoptotic cells. We assume that all cells move with the same velocity and that the local volume fraction, occupied by the cells is constant in space and time. This hypothesis, based on experimental evidence, allows us to determine a constitutive equation for the cell velocity. We focus on the stationary case of the problem, that takes the form of a quasi-linear evolution problem of first order, and we investigate conditions under which there is a solution.

Mesh：

Year: 2010 PMID： 20177685 DOI： 10.1007/s00285-010-0330-3

Source DB: PubMed Journal: J Math Biol ISSN： 0303-6812 Impact factor: 2.259

21 in total

Review 1. Getting under the skin of epidermal morphogenesis.

Authors: Elaine Fuchs; Srikala Raghavan
Journal: Nat Rev Genet Date: 2002-03 Impact factor: 53.242

2. Cell kinetics in a tumour cord.

Authors: A Bertuzzi; A Gandolfi
Journal: J Theor Biol Date: 2000-06-21 Impact factor: 2.691

3. Mathematical models of hierarchically structured cell populations under equilibrium with application to the epidermis.

Authors: Nicholas J Savill
Journal: Cell Prolif Date: 2003-02 Impact factor: 6.831

4. A model of the control of cellular regeneration in the intestinal crypt after perturbation based solely on local stem cell regulation.

Authors: U Paulus; C S Potten; M Loeffler
Journal: Cell Prolif Date: 1992-11 Impact factor: 6.831

5. Crypt dynamics and colorectal cancer: advances in mathematical modelling.

Authors: I M M van Leeuwen; H M Byrne; O E Jensen; J R King
Journal: Cell Prolif Date: 2006-06 Impact factor: 6.831

6. Epidermal cell proliferation. II. A comprehensive mathematical model of cell proliferation and migration in the basal layer predicts some unusual properties of epidermal stem cells.

Authors: M Loeffler; C S Potten; H E Wichmann
Journal: Virchows Arch B Cell Pathol Incl Mol Pathol Date: 1987

An age-structured model of epidermis growth.

Review 1. Getting under the skin of epidermal morphogenesis.

2. Cell kinetics in a tumour cord.

3. Mathematical models of hierarchically structured cell populations under equilibrium with application to the epidermis.

4. A model of the control of cellular regeneration in the intestinal crypt after perturbation based solely on local stem cell regulation.

5. Crypt dynamics and colorectal cancer: advances in mathematical modelling.

6. Epidermal cell proliferation. II. A comprehensive mathematical model of cell proliferation and migration in the basal layer predicts some unusual properties of epidermal stem cells.

7. A computer graphic simulation of squamous epithelium.

8. Stereologic baseline data of normal human epidermis.

Review 9. Pathogenesis and therapy of psoriasis.

10. Cell proliferation in normal epidermis.

1. A glycemia-structured population model.

2. Modelling epidermis homoeostasis and psoriasis pathogenesis.

3. The steady state of epidermis: mathematical modeling and numerical simulations.

4. Stochastic simulation of structured skin cell population dynamics.

5. Towards a quantitative theory of epidermal calcium profile formation in unwounded skin.

6. A Dynamic Model for Prediction of Psoriasis Management by Blue Light Irradiation.