Hydrogel technology has rapidly emerged as one of the most transformative innovations in modern medicine. From wound care to ...

Key drivers of this growth include the rising incidence of degenerative bone diseases, diabetic ulcers, traumatic injuries, sports-related ...

MIT engineers create a programmable drug patch that heals damaged heart tissue and restores cardiac function after a heart ...

Cardiovascular Reparative Medicine and Tissue Engineering (CRMTE) aims to develop future technologies and therapeutic strategies that will serve as treatment for cardiovascular disease. CRMTE includes ...

Washington University engineers 3D print bioelectronic hydrogels, which could one day replace existing implantable devices.

A new study has found for the first time that magnetoelectric nanoparticles—tiny, wirelessly controlled particles activated ...

Regenerative medicine combines tissue engineering and cell therapies to repair or replace damaged human tissues and organs. Key applications include treating osteoarthritis with mesenchymal stem cells ...

These fields aim to facilitate healing and restore lost function in damaged or diseased tissues and organs by integrating scaffolds, cells, and biological signaling molecules. This combination aims to ...

Ingestible devices are often used to study and treat hard-to-reach tissues in the body. Swallowed in pill form, these ...

Flow chart illustrating the mechanism of action of the tapeworm-inspired tissue anchoring mechanism. Upon contact with a tissue surface (in this case, the intestinal lining), the small protruding ...