This new article publication from Acta Pharmaceutica Sinica B, discusses the construction of a localized immune niche via supramolecular hydrogel vaccine to elicit durable and enhanced immunity ...

Osaka, Japan - Scientists at The University of Osaka have developed a novel hydrogel that enables the efficient, three-dimensional (3D) culture of human induced pluripotent stem cells (iPSCs). By ...

To better understand our cells and extracellular matrix—the 3D scaffolding that surrounds our cells—scientists apply different mechanical forces to simulate these microenvironments. A new study uses ...

Tissue engineering and regenerative medicine hold great promise for enhancing and prolonging life, with multiple cell-based therapies now reaching the clinic. Hydrogels are water-soluble polymer ...

Advances in materials science are transforming medicine, engineering, and environmental technology. Among the most promising innovations are hydrogels—highly absorbent polymer networks with ...

Researchers have developed a hydrogel that heals and strengthens itself as it is overloaded and damaged. The proof-of-concept demonstration could lead to improved performance for situations where soft ...

Global Scaffold Technology Market OverviewThe global scaffold technology market is poised for robust expansion, registering an estimated growth rate of around 13% over the next five years, driven by ...

Cell culture materials impact a target cell’s ability to proliferate and function as planned. These materials offer precise mechanical and chemical cues that decide a cell's morphology and ...

The in situ formed hydrogel vaccine creates an immune niche to coordinate the spatiotemporal dynamics of vaccine components and dendritic cells, eliciting durable and enhanced immunity against ...