The injectable conductive hydrogel developed in this study excels in electrophysiological signal recording and stimulation performance, offering the potential to expand its applications.

The easily injectable hydrogel developed at EPFL and flowbone, on the other hand, is made of hyaluronic acid and hydroxyapatite nanoparticles, and is designed to mimic the natural minerals in bone.

The Indian Institute of Technology (IIT) Guwahati, in collaboration with Bose Institute, Kolkata, has developed an advanced injectable hydrogel for localized cancer treatment.

An injectable hydrogel for local bone densification Date: January 28, 2025 Source: Ecole Polytechnique Fédérale de Lausanne Summary: Researchers have combined injections of a novel hydrogel with ...

Investigating the potential of DNA to form self-assembled injectable hydrogels via physical crosslinking with silicate nanodisks, researchers have utilized DNA as a high molecular weight polymeric ...

Researchers from Gwangju Institute of Science and Technology (GIST), Korea have developed graphene-based conductive hydrogels as bioelectrode materials for overcoming the challenges associated ...

A.P., M.R., M.J. have filed a patent application entitled: “Electrically conductive hydrogels usable as pacemaker lead extensions, apparatus for delivery of a hydrogel into the venous system ...

Top: the injectable hydrogel promptly recovers its stiffness after injection through a catheter; the centre panel shows the gel regaining its stiffness; on the right, the gel also sticks to the glass ...