We present a global stability analysis of two-compartment models of a hierarchical cell production system with a nonlinear regulatory feedback loop. The models describe cell differentiation processes with the stem cell division rate or the self-renewal fraction regulated by the number of mature cells. The two-compartment systems constitute a basic version of the multicompartment models proposed recently by Marciniak-Czochra and collaborators [25] to investigate the dynamics of the hematopoietic system. Using global stability analysis, we compare different regulatory mechanisms. For both models, we show that there exists a unique positive equilibrium that is globally asymptotically stable if and only if the respective reproduction numbers ex...
International audienceWe investigate a mathematical model of blood cell production in the bone marro...
Identifying the mechanism of intercellular feedback regulation is critical for the basic understandi...
Most tissues in multicellular organisms are maintained by continuous cell renewal processes. However...
We present a global stability analysis of two-compartment models of a hierarchical cell production s...
We study two-and three-compartment models of a hierarchical cell production system with cell divisio...
International audienceWe propose and analyze a mathematical model of the production and regulation o...
International audienceWe consider a nonlinear mathematical model of hematopoietic stem cell dynamics...
In this paper, we perform a mathematical analysis of our proposed nonlinear, multiscale mathematical...
Under the action of growth factors, proliferating and nonproliferating hematopoietic stem cells diff...
International audienceWe consider a nonlinear age-structured model, inspired by hematopoiesis modell...
Abstract. We analyze the asymptotic behavior of a nonlinear mathematical model of cellular prolifera...
Abstract. Self-renewal is a constitutive property of stem cells. Testing the cancer stem cell hypoth...
International audienceA nonlinear system with distributed delays is studied. The model takes into ac...
Abstract. Under the action of growth factors, proliferating and nonprolifer-ating hematopoietic stem...
International audienceWe investigate a system of two nonlinear age-structured partial differential e...
International audienceWe investigate a mathematical model of blood cell production in the bone marro...
Identifying the mechanism of intercellular feedback regulation is critical for the basic understandi...
Most tissues in multicellular organisms are maintained by continuous cell renewal processes. However...
We present a global stability analysis of two-compartment models of a hierarchical cell production s...
We study two-and three-compartment models of a hierarchical cell production system with cell divisio...
International audienceWe propose and analyze a mathematical model of the production and regulation o...
International audienceWe consider a nonlinear mathematical model of hematopoietic stem cell dynamics...
In this paper, we perform a mathematical analysis of our proposed nonlinear, multiscale mathematical...
Under the action of growth factors, proliferating and nonproliferating hematopoietic stem cells diff...
International audienceWe consider a nonlinear age-structured model, inspired by hematopoiesis modell...
Abstract. We analyze the asymptotic behavior of a nonlinear mathematical model of cellular prolifera...
Abstract. Self-renewal is a constitutive property of stem cells. Testing the cancer stem cell hypoth...
International audienceA nonlinear system with distributed delays is studied. The model takes into ac...
Abstract. Under the action of growth factors, proliferating and nonprolifer-ating hematopoietic stem...
International audienceWe investigate a system of two nonlinear age-structured partial differential e...
International audienceWe investigate a mathematical model of blood cell production in the bone marro...
Identifying the mechanism of intercellular feedback regulation is critical for the basic understandi...
Most tissues in multicellular organisms are maintained by continuous cell renewal processes. However...