Chronic neuroinflammation, a key driver of these disorders, arises from the intricate interactions between cerebral blood vessels and neural cells, where the BBB plays a pivotal regulatory role.

Artificial organ transplants have been held back by the difficulty of making networks of blood vessels - a problem scientists ...

Researchers at Stanford University have developed a technique for rapidly designing and 3D printing blood vessels.

This model differs from existing models, which can only sustain blood clots for short periods. Additionally, this new model includes the real cells necessary for clot resolution, whereas other lab ...

Stanford researchers design blood vessels for 3D printed hearts - developing a faster, more precise way to model and print ...

Two-dimensional (2D) blood vessel models have difficulties in mimicking the three-dimensional (3D) microenvironment in human, simulating kinetics related to cell activities, and replicating human ...

Scientists used patient stem cells and 3D bioprinting to produce eye tissue that will advance understanding of the mechanisms of blinding diseases. The research team printed a combination of cells ...

A stem-cell-based model closely captures the development of human embryonic and key extra-embryonic tissues after implantation, as well as the formation of early blood cells. A 3D structure built ...

A 3D model accurately mimicking the Blood-Brain Barrier ... arises from the intricate interactions between cerebral blood vessels and neural cells, where the BBB plays a pivotal regulatory role.