"This is a revolutionary material engineering paradigm for biomedical applications and is a key milestone toward achieving ...

Researchers from the UCLA Samueli School of Engineering and the University of Rome Tor Vergata in Italy have developed synthetic genes that function ...

A research team led by the University of California, Irvine has engineered an efficient new enzyme that can produce a ...

Regenerative medicine represents a transformative approach in healthcare, focusing on repairing or replacing damaged tissues and organs to restore normal function. Synthetic biology is revolutionizing ...

To better understand why some cancer patients struggle to fight off infections, Georgia Tech researchers have created tiny ...

So far, synthetic materials have not matched the efficacy of native tissues, particularly in small diameter applications. The development of cardiovascular tissue engineering introduced the ...

In organ donation and transplantation, the high demand for organs exceeds supply, greatly, leading to limited access to transplantation. The waiting lists for a heart transplant in the UK increased by ...

The efficient use of cellulose—the primary plant scaffold and a major natural building block—could address many issues associated with petroleum-based polymers across various industries. In the search ...

Our synthetic hydrogels create a breakthrough ... that mimic human tonsils and lymph node tissue to study immune responses more accurately. Their research findings, published in the journal Nature ...

The efficient use of cellulose - the primary plant scaffold and a major natural building block - could address many issues ...

Chitin and chitosan, naturally occurring polysaccharides, have emerged as a prominent class of biopolymers with immense potential across various scientific and industrial fields. Their unique ...