Scientists from Sun Yat-sen University's School of Biomedical Engineering have developed groundbreaking tubular scaffolds made from electrospun membranes, which significantly enhance bone regeneration ...

Heart disease is a leading cause of heart attacks, and current bypass grafts often fail to fully regenerate healthy blood vessels. Using a rapid 3D-printing process called MµCLIP, researchers created ...

Is it possible to grow vascular tissue suitable for revascularization or for vascular conduits? This report summarizes the various methods used for tissue engineering and the future prospects for what ...

Recently, a research team led by Dr. DU Xuemin at the Shenzhen Institutes of Advanced Technology (SIAT) of the Chinese Academy of Sciences created a new shape-morphing scaffold, enabling programmed ...

With this challenge in mind, the RMCU team used melt electrowriting to first create tubular scaffolds. Once the scaffolds were cooled, the researchers applied the cell-infused gel from the volumetric ...

Tissue engineering or regenerative medicine offers new possibilities for the functional and structural restoration of damaged or lost tissue. Tissue engineering involves either seeding cells into a 3D ...

Biomaterial investigators know that the mechanical stretching of a scaffold containing cells modifies the cells’ behaviour. This effect is being studied and used by research groups worldwide to ...

In this project volumetric bioprinting was for the first time successfully combined with melt electrowriting. This combines the speed and cell-friendliness of volumetric printing with the structural ...