With support from the National Institutes of Health, a University of Texas at Arlington bioengineering professor is ...

D bioprinting uses living cells as "ink" to create functional tissues. Discover how this technology is transforming medicine ...

A research team at RCSI University of Medicine and Health Sciences has developed a 3D printed implant to deliver electrical ...

New research from Professor Guillermo Ameer’s team shows how a shape change of a cell’s nucleus can trigger regenerative ...

The ankle's ability to regenerate cartilage uses the same mechanisms that enable some animals to grow new limbs, and it could ...

Bioluminescent imaging is helping researchers better understand the effectiveness of tissue regeneration enhancers delivered to injured heart tissue by different adeno-associated virus vectors.

A dual-drug hydrogel using dexamethasone and kartogenin supports cartilage repair by controlling inflammation and promoting ...

Bioceramics are transforming medicine with their biocompatibility and structural properties, supporting applications in ...

In this Account, based on the principles of bionic tissue engineering, we constructed various bone repair scaffolds through multidimensional approaches and systematically evaluated their capabilities ...

The soft tissue repair market is expected to reach USD 7,636.3 Million by 2025 and is expected to steadily grow at a CAGR of 4.5% to reach USD 11,859.0 Million by 2035. In 2024, soft tissue repair ...

Consequently, identifying subpopulations with specific functions and appropriately applying them could offer a viable strategy for tissue repair and functional restoration. In this study, we ...