Hydrogels are polymeric materials with three-dimensional network structures containing large amounts of water. They serve as sustained-release drug delivery systems as they can encapsulate various ...

DNA has gained significant attention as a promising hydrogel material thanks to its customizable physicochemical properties, ...

Innovative Takumi-shaped DNA hydrogels exhibit prolonged retention and drug release, showcasing their potential as biocompatible delivery systems in medicine.

Researchers at the University of Toronto see a future where a single injection under the eyelid could replace months of daily ...

Cancer models developed with 3D bioprinting technology allow for rapid evaluation of individual drug responses.

A novel 3D bioprinted gastric cancer model using patient-derived tissues predicts drug responses, enhancing personalized ...

A collaborative research team led by Professor Jinah Jang from the Department of Mechanical Engineering and the Department of ...

A research team has developed a gastric cancer model using 3D bioprinting technology and patient-derived cancer tissue fragments. This innovative model preserves the characteristics of ...