During early development, tissues and organs begin to bloom through the shifting, splitting, and growing of many thousands of ...

Researchers suggest that MultiCell could potentially be used to discern early patterns of disease, such as in asthma.

Scientists in Melbourne have discovered how tiny electrical pulses can steer stem cells as they grow, opening the door to new improved ways of creating new tissues, organs, nerves and bones.

Researchers have created a way to guide and control the development of stem cells into specific tissues and organs, opening the door to developing a means of one day tackling complex diseases like ...

From the moment an embryo starts to take shape, two-way communication is critical for making sure tissues and organs develop ...

Overcoming acquired treatment resistance is one of the major challenges in the fight against cancer. While combination ...

Tissue processing advance can label proteins at the level of individual cells across whole, intact rodent brains and other large samples just as fast and uniformly as in dissociated single cells. A ...

Bioptimus described the new model as a universal model trained on the world’s largest proprietary datasets. The training data ...

University of Rochester Assistant Professor Marisol Herrera-Perez received a $2 million NIH MIRA grant to investigate the mechanical signals that guide how a single cell becomes a complex organism.

3D bioprinting combines cells, growth factors, and biomaterials to fabricate biomedical parts. The process requires special “bio-inks,” often made of materials like alginate or gelatin. A key goal is ...