RIT researchers solve multiple tissue engineering challenges by developing a novel hydrogel to host human cells and a device to 3D print bioinks safely.

Tissue engineering and regenerative medicine have shown significant potential for repairing and regenerating damaged tissues and can be used to provide personalized treatment plans, with broad ...

A new device that uses light to non-destructively image tissue could revolutionize cartilage and tissue transplant surgery, laying the groundwork for osteoarthritis treatment. Published Sept. 9 in ...

The Suspended Tissue Open Microfluidic Patterning, or STOMP device, is small enough to fit on a fingertip, and is expected to advance human tissue modeling for research on a variety of complex ...

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 ...

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 ...

Charles R. Goulding and Jacob Nolan examine how Duke University’s research strategy, shaped by federal funding uncertainty, healthcare innovation, and advanced manufacturing trends, is positioning 3D ...

The medical devices market is expected to register a compound annual growth rate (CAGR) of approximately 7% between 2026 and ...

A team of researchers at Massachusetts Institute of Technology (MIT) have designed a ground-breaking material that is designed to prevent the buildup of scar tissue around implantable devices. The ...