Katie Weimer figured out a way to make regenerative tissue to bring hope to breast cancer survivors around the world. In the lab of her Colorado startup, she is building “scaffolds” from advanced, ...

TPU researchers, together with their Russian colleagues, have developed biomedical scaffolds with a gyroid structure that ...

Bone and skeletal injuries cause extensive and long-term functional impairments worldwide. In a new study, researchers at Lund University in Sweden show how a cell-free cartilage structure can safely ...

Researchers developed bioengineered lymphatic tissue that replaced missing lymph nodes in mice, with potential to treat lymphedema.

The university's scientists have received a $28.5 million award from the Advanced Research Projects Agency for Health to develop a transplantable 3D-printed liver patch. The initiative ...

Rapid adoption of bioresorbable polymers, 3D-printed implants, and smart coatings accelerates demand across orthopedics, ...

Severe skeletal muscle injury, especially volumetric muscle loss, remains difficult to treat because effective regeneration requires safe, effective, and sustained intervention. Addressing this ...

You will be redirected to our submission process. The field of bone tissue engineering has rapidly evolved, with bioceramics playing a central role in supporting bone repair and regeneration.

This review innovatively proposes the use of electrospinning to fabricate electroactive fibrous scaffolds, which mimic the structure of the extracellular matrix while providing electrical activity, ...

The majority of human illnesses is caused by damage of a single organ like the liver whose failure accounts for 2M deaths worldwide every year. Orthotopic transplants are the only curative therapy ...