Quality control of the materials used in various surgical applications is a key challenge for the tissue engineering industry. For example, living human cells are being used in scaffolds to repair ...

The process also involves bioreactors, growth factors, transcription factors, scaffolds, and mechanical stimuli to ensure proper tissue development and functionality. (Image: Wikimedia Commons, CC ...

Functional scaffolds offer better tissue regeneration besides structural support. The bone tissue engineering with 3D printing has advanced the regeneration potential. Bone tissue engineering is ...

This dramatic reduction in equipment costs could democratize tissue engineering research, making it accessible to more laboratories worldwide. By showing that effective scaffolds can be created using ...

Alexandra Rutz and Somtochukwu Okafor have developed a technique to 3D print bioelectronic scaffolds that could help grow new ...

Neural tissue engineering, spinal cord repair, cardiovascular diseases, drug delivery, biomaterial scaffolds, stem cells, neural electrode/tissue interface, and surface modification.

Tissue engineering utilizes 3D printing and bioink to grow human cells on scaffolds, creating replacements for damaged tissues like skin, cartilage, and even organs. A team of researchers led by ...