Add to ORKGWe first study a one-dimensional motility model for nematode sperm cells. Next we extend our study to cover the two-dimensional case. In both cases, such models lead to moving boundary problems (MBP). Moving mesh finite element algorithms are implemented. Our numerical simulations show that as time evolves, the cells converge to a definite shape traveling at a constant speed.
A numerical method for simulating the movement of unicellular organisms which respond to chemical si...
Cell migration is a complex phenomenon that plays an important role in many biological processes. Ou...
Cell migration is a fundamental mechanism in biology, including cancer or embryogenesis. Actin turno...
We first study a one-dimensional motility model for nematode sperm cells. Next we extend our study t...
In this paper, we consider two mathematical cell motility models for the nematode sperm cell, descri...
We develop a one-dimensional physical model of the crawling movement of simple cells: The sperm of a...
The movement of Ascaris suum sperm cells is caused by protrusive, adhesive and contractile forces th...
We present a mathematical and a computational framework for the modelling of cell motility. The cell...
In this article we present a novel application of the moving grid finite element method [1] for solv...
Cell motility is a complex process comprising, among others, cytoskeletal remodelling and growth, ac...
In this paper we present a computational tool that enables the simulation of mathematical models of ...
Cell motility, and in particular crawling, is a complex process, with many as yet unknown details (\...
A hybrid boundary integral/slender body algorithm for modelling flagellar cell motility is presented...
The basis for many biological processes such as cell division and differen-tiation, immune responses...
<div><p>Between other parameters, cell migration is partially guided by the mechanical properties of...
A numerical method for simulating the movement of unicellular organisms which respond to chemical si...
Cell migration is a complex phenomenon that plays an important role in many biological processes. Ou...
Cell migration is a fundamental mechanism in biology, including cancer or embryogenesis. Actin turno...
We first study a one-dimensional motility model for nematode sperm cells. Next we extend our study t...
In this paper, we consider two mathematical cell motility models for the nematode sperm cell, descri...
We develop a one-dimensional physical model of the crawling movement of simple cells: The sperm of a...
The movement of Ascaris suum sperm cells is caused by protrusive, adhesive and contractile forces th...
We present a mathematical and a computational framework for the modelling of cell motility. The cell...
In this article we present a novel application of the moving grid finite element method [1] for solv...
Cell motility is a complex process comprising, among others, cytoskeletal remodelling and growth, ac...
In this paper we present a computational tool that enables the simulation of mathematical models of ...
Cell motility, and in particular crawling, is a complex process, with many as yet unknown details (\...
A hybrid boundary integral/slender body algorithm for modelling flagellar cell motility is presented...
The basis for many biological processes such as cell division and differen-tiation, immune responses...
<div><p>Between other parameters, cell migration is partially guided by the mechanical properties of...
A numerical method for simulating the movement of unicellular organisms which respond to chemical si...
Cell migration is a complex phenomenon that plays an important role in many biological processes. Ou...
Cell migration is a fundamental mechanism in biology, including cancer or embryogenesis. Actin turno...