Researchers have uncovered how different types of brain cells work together to form large-scale functional networks in the human brain -- interconnected systems that support everything from sensory ...

The funding, part of a new ARPA-H bioprinting initiative, aims to create transplant-ready organs—potentially within ...

The study shows that fat tissue, when processed and cultured in a specific way, can self-organize into structures resembling bone marrow, pancreatic islets, and even neural tissue. These organoids ...

Researchers in Japan built a miniature human brain circuit using fused stem-cell–derived organoids, allowing them to watch ...

Assembloids: A Versatile Platform for Human Tissue Modeling. This schematic illustrates the classification of assembloids based on four key assembly strategies—multi-region, multi-lineage, ...

When biomedical researchers need to test their latest ideas, they often turn to engineered human tissue that mimics the responses in our own bodies. It's become an important intermediary step before ...

Human periportal assembloid, showcasing the three key cell types of the liver: portal fibroblasts (magenta), cholangiocytes (green), and hepatocyte nuclei (blue). All cell borders are delineated in ...