Researchers at UChicago have developed a nanoparticle system that can effectively deliver mRNA to insulin-producing cells, protecting them from the body’s autoimmune response ...

RIT researchers solve multiple tissue engineering challenges by developing a novel hydrogel to host human cells and a device to 3D print bioinks safely.

Scientists in China have unveiled a breakthrough way to mass-produce powerful cancer-fighting immune cells in the lab. By ...

Organoids have transformed biomedical research by giving scientists miniature versions of human organs to study in the lab.

Bacterial cellulose (BC) has emerged as a versatile biomaterial pivotal to advances in tissue engineering and composite fabrication. Owing to its intrinsic high purity, excellent biocompatibility, and ...

Doctors and scientists have long relied on microscopes to study human tissue and diagnose disease. But today's medical research produces far more information than the human eye alone can handle, ...

Extracellular vesicles (EVs) are tiny biological bubbles that carry nucleic acids and proteins between cells, playing an essential role in tissue repair, neuroprotection and immune health. By ...

Never-before-seen 3D reconstructions of human liver tissue have been created at a cellular level. The details obtained by a team of UW Medicine and University of Washington engineers and physicians ...

The production of cultured meat depends on the isolation, expansion, and differentiation of animal stem cells into edible tissues. Muscle stem cells, or satellite cells, are central to this process ...

Scientists haven’t had a precise way to arrange and study surface-bound extracellular vesicles and particles (EVPs) as they guide cell behavior. Researchers developed LEVA, which uses patterned ...

Explore the evolution of T-cell engagers, from experimental concepts to effective therapies for haematologic malignancies.