A new study published in the journal 'Science Advances' presents the use of a novel tissue engineering material composed of bioactive injectable hydrogel to speed up the rate of healing in wounded ...

The ability to modify their physicochemical properties means wound healing can be optimized using bioactive hydrogels, an application that has been further explored in the past decade. This is seen as ...

Researchers from DTU have developed a new biopolymer for muscle tissue regeneration. They have harnessed the native bioproduction facilities in bacteria to synthesize a durable, resilient, and elastic ...

A research team has unveiled a new type of hydrogel that leverages the natural properties of lignin to create a multifunctional material suitable for biomedical applications, particularly in wound ...

Researchers at Columbia Engineering have developed an innovative bioactive gel derived from yogurt that may pave the way for advanced tissue regeneration therapies. This gel, which leverages ...

Researchers have developed a bioactive hydrogel ink containing macrophage-derived extracellular vesicles (EVs) that enhances cutaneous wound healing and can be administered in situ using a 3D-printing ...

A new 3D printed customizable hydrogel performed well in preclinical trials with several different types of meniscal tears. Meniscus tears are common knee injuries that have long frustrated patients ...

Researchers have created the world's first bioactive plant-based nanocellulose hydrogel to support organoid growth for biomedical applications. This includes cancer development and treatment. - Monash ...