Single and collective cell migration are fundamental processes critical for physiological
phenomena ranging from embryonic development and immune response to wound healing …

Eukaryotic cell motility involves complex interactions of signalling molecules, cytoskeleton,
cell membrane, and mechanics interacting in space and time. Collectively, these …

Transendothelial migration is a crucial process of the metastatic cascade in which a
malignant cell attaches itself to the endothelial layer forming the inner wall of a blood or …

To function efficiently in the body, the biological cells must have the ability to sense the
external environment. Mechanosensitivity toward the extracellular matrix was identified as …

Substrate-based crawling motility of eukaryotic cells is essential for many biological
functions, both in develo** and mature organisms. Motility dysfunctions are involved in …

Cell movement on a substrate or within the extracellular matrix is the phenomenological
response to a biochemical signals' cascade transcripted into biophysical processes and …

A computational framework is presented for the simulation of eukaryotic cell migration and
chemotaxis. An empirical pattern formation model, based on a system of nonlinear reaction …

Dissecting the intracellular signaling mechanisms that govern the movement of eukaryotic
cells presents a major challenge, not only because of the large number of molecular players …

Angiogenesis, the formation of new bloods vessels from the existing vasculature, is a
process that is essential during development and regeneration of tissues, and that plays a …

Tissue engineering is an emerging field of research which combines the use of cell-seeded
biomaterials both in vitro and/or in vivo with the aim of promoting new tissue formation or …