The medical industry is already using 3D printing, also referred to as additive manufacturing (AM) in many different areas. For instance, 3D printing of hearing aids has become a routine process, and ...

In mice with a spinal cord injury, mixing materials including bioactive sequences formed a polymer meshwork that improved axon regrowth, angiogenesis, and neuronal cell survival. The study points to ...

A new technology for implants that may improve construction or repair of bones in the face, skull and jaw, has been developed by researchers from the American Dental Association Foundation (ADAF) and ...

Abstract: Non-healing skin wounds inflict nearly 5 million Americans each year, and translate into multi-billion dollar healthcare costs. Tissue engineering approaches using cell-based dermal, ...

Researchers have developed a type of glass implant that could one day be used to repair injured bones in the arms, legs and other areas of the body that are most subject to the stresses of weight.

Bioactive Factors-imprinted Scaffold Vehicles for Promoting Bone Healing: The Potential Strategies and the Confronted Challenges for Clinical Production- BIO Integration Announcing a new article ...

The utilization of biodegradable biomaterials as a therapeutic modality for musculoskeletal tissue regeneration has emerged as a promising avenue for ...

Its aim is to inhibit the growth of bacteria at the wound site and support the growth of new bone structures. This innovative medical engineering is the result of the SCABAEGO joint research project, ...

Almost 50 years since the late Richard Heck discovered the powerful chemical reaction that led to the University of Delaware professor’s 2010 Nobel Prize, chemists are still finding new and valuable ...

A new technology for implants that may improve construction or repair of bones in the face, skull and jaw, has been developed by researchers from the American Dental Association Foundation (ADAF) and ...