RIT researchers have developed an ideal recipe that could advance how bio-tissues are produced. Ahasan Habib, and Christopher Lewis, both professors in RIT’s College of Engineering Technology, and ...

A new, easily adopted, 3D-printed device will enable scientists to create models of human tissue with even greater control and complexity. An interdisciplinary group of researchers at the University ...

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 ...

Electrical signalling cues have an important role in regulating human metabolism. Electrical stimulation is widely used to promote tissue regeneration and functional recovery. Electroactive ...

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 ...

Recent advancements in the field of biomedical engineering have underscored the pivotal role of biodegradable materials in addressing the challenges associated with tissue regeneration therapies. The ...

Tissue engineering utilizes 3D printing and bioink to grow human cells on scaffolds, creating replacements for damaged tissues like skin, cartilage, and even organs. A team of researchers led by ...

Tissue engineering is an interdisciplinary field that combines principles from engineering, biology, and materials science to develop biological substitutes that restore, maintain, or improve tissue ...

Costa Rican scientists have created a patented medical device that allows for the lab-grown development of muscle and bone tissue—offering a new alternative for treating serious injuries without the ...

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 ...