Bioactive Materials is an international, peer-reviewed research publication covering all aspects of bioactive materials. The journal welcomes the submission of research papers, reviews and rapid ...

The results demonstrated that the NanoFuse composite produced greater alkaline phosphatase activity , a key marker of early osteoblastic differentiation, compared with DBM alone and bioactive glass ...

Scientists have developed a new bioactive material that successfully regenerated high-quality cartilage in the knee joints of a large-animal model. New material comprises peptides, proteins and ...

Bio-Active Composite Therapy (BACT) represents a significant advancement in regenerative orthopaedics, integrating bioactive ...

Northwestern University scientists have developed a new bioactive material that successfully regenerated high-quality cartilage in the knee joints of a large-animal model. Although it looks like a ...

A groundbreaking catalyst has been unveiled by scientists, enabling the direct conversion of methane into bioactive compounds. This innovation could potentially revolutionize the way chemists ...

In 1969, the first bioactive glass material was developed by Larry Hench, a professor of ceramic engineering at the University of Florida. Hench collaborated with doctors during the Vietnam War to ...

Rutgers scientists have devised a highly accurate method for creating coatings of biologically active materials for a variety of medical products. Such a technique could pave the way for a new era of ...

Science of engineering bioactive materials constitutes a multidisciplinary field that focuses on designing and developing materials which can interact with biological systems in a safe and beneficial ...

A landmark peer-reviewed scientific study published in the International Journal of Spine Surgery reports that a NanoFuse® bioactive glass–demineralized bone matrix (DBM) composite demonstrated ...

In adult humans, cartilage does not have an inherent ability to heal. Northwestern Engineering scientists have developed a new bioactive material that successfully regenerated high-quality cartilage ...