Most of the cells in our bodies don't move—they stay where they're supposed to in service to our organs and biological systems. But aggressive cancer cells behave differently, spreading and ultimately ...
Cell migration is a multistep process essential to various physiological functions, including immune cell movement and embryonic development, as well as pathological conditions like tumor metastasis.
Yale researchers are providing new insights into how physical forces, such as cells being compressed in physically restrictive environments, play key roles in cancer progression. By analyzing liver ...
How do cells move from A to B through our body to build functional tissues? And how is this process regulated? The answers to these questions are essential – for example, for our understanding of how ...
Open micro-valley chip for viscosity-driven glioblastoma invasion study. Schematic illustration of an open two-layer microfluidic membrane platform for investigating glioblastoma (GBM) cell invasion ...