Traditional lab models are limited to experiments in culture flasks and on flat, plastic surfaces. The new methods used in this study create a 3D structure from blood vessel cells designed to ...

In a three-dimensional culture system, neurons expressing AD mutations activated glia. CD8+ T cells infiltrated the culture. When both CD8+ T cells and microglia were present, neurodegeneration ensued ...

A computational model that could rapidly design a blood vessel network for any 3D-printed organ may take us a step closer to transplanting artificial livers, kidneys or hearts without the need for ...

New human cell-based 3D model reveals insights into how immune cells contribute to Alzheimer's disease The model provides insights into the progression of AD and could help to accelerate the ...

Still other researchers are 3D-printing insulin-producing pancreatic tissues to help manage diabetes, viruses that can attack cancer cells and organ models that surgeons can practice on or that ...

Bioengineers have developed a 3D bioprinting technique that works with natural materials and is easy to use, allowing researchers of varying levels of technical expertise to create lifelike ...

A 3D model has been developed that accurately replicates the complex structures of cerebral blood vessels, enabling researchers to mimic the blood–brain barrier.

There's been a potential breakthrough in making organs in the lab. Israeli researchers have 3D printed a heart, complete with muscle and blood vessels. But how long before it is ready for actual ...

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.