LLNL advances cellular fluidics with multi-material 3D printing - producing lattice structures with a series of custom-designed unit cells.

A new study shows how an anticancer drug triggers an “outside in” signal that gets it sucked into a cancer cell. The work, published Jan. 29 in Nature Communications, reveals ...

In this manuscript the authors established a novel three-dimensional culture system for stratified epithelia that allows epithelial cells to undergo epithelial-to-mesenchymal transition (EMT) and ...

A new study shows how an anticancer drug triggers an "outside in" signal that gets it sucked into a cancer cell.

Biocompatibility is a key challenge for medical implants, so researchers have engineered apatite nanoparticles with enhanced ...

A new study shows how an anticancer drug triggers an 'outside in' signal that gets it sucked into a cancer cell. The work reveals a new signaling mechanism that could be exploited for delivering other ...

Cells navigating in complex microenvironments frequently encounter narrow spaces that physically challenge migration.

A new study shows how an anticancer drug triggers an “outside in” signal that gets it sucked into a cancer cell.

Medical implants have transformed health care, offering innovative solutions with advanced materials and technologies.