Hidden within our bones, marrow sustains life by producing billions of blood cells daily, from oxygen-carrying red cells to immune-boosting white cells. This vital function is often disrupted in ...

People's decisions are known to be influenced by past experiences, including the outcomes of earlier choices. For over a century, psychologists have been trying to shed light on the processes ...

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 ...

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, ...

Researchers have developed a human intestinal cell model that closely mimics the structure and function of the human gut, enabling more precise prediction of drug-induced gastrointestinal toxicity ...

Typically, bone marrow research relies heavily on animal models and oversimplified cell cultures in the laboratory. Now, researchers from the Department of Biomedicine at the University of Basel and ...

To create a cervix-on-a-chip, the researchers added cells that line the cervical canal to one channel of a microfluidic device. To an adjacent channel, they introduced cervical fibroblasts that form ...

A breakthrough for biomedical research promises new insight into immunotherapy development and disease modeling. Scientists at The University of Texas Health Science Center at San Antonio have created ...

Scientists have produced an organoid model of the human conjunctiva. These organoids mimic the function of the actual human conjunctiva, a tissue involved in tear production. Using their new model, ...