Ear we go! Scientists 3D print the most true-to-life human ear to date. Researchers in Switzerland have 3D-printed the most ...

For the first time ever, an anti-aging drug is providing hope for millions who suffer from this common condition.

Researchers from the Critical Analytics for Manufacturing Personalized Medicine (CAMP), an interdisciplinary research group (IRG) of Singapore-MIT Alliance for Research and Technology (SMART), in ...

In laboratory experiments, researchers have produced ear cartilage that remains form-stable in animal models. Only one ...

Injured cartilage can take the body a long time to repair, but back in 2014 we looked at a promising study where scientists created grafts from nasal cartilage cells and deployed them in damaged knees ...

Dr. Reske has proven leadership in clinical development and regulatory affairs following key role in FDA approval of ...

Currently, in order to reshape cartilage such as that within the nose, incisions and subsequent sutures are typically required. Not only is the procedure invasive, but it can also result in scarring.

Cartilage tissue equivalents formed from hydrogels containing chondrocytes could provide a solution for replacing damaged cartilage. Previous approaches have often utilized elastic hydrogels. However, ...

Osteoarthritis (OA) refers to a group of mechanically-induced joint disorders to which both genetic and acquired factors contribute. Current pathophysiological concepts focus on OA as a disease of the ...

Choosing what type of piercing to get next in your ear is a tough decision. Once you have your lobes pierced, the options get infinitely more complicated. Whether it's your rook, tragus, helix, ...

Researchers say the new printer can create stronger cartilage than other techniques Researchers have developed a way to "print" cartilage that could help treat joint diseases and sporting injuries.