Tissue and organ failure, produced as a result of injury or other type of damage, is a major health problem, accounting for about half of the total annual expenditure in health care in the US 1.

This article reviews recent developments and major issues in the use and design of biomaterials for use as scaffolds in pediatric tissue engineering. A brief history of tissue engineering and the ...

Understanding these interactions traditionally required extensive animal studies, but our groundbreaking research is changing this paradigm by combining the precision of 3D printing with the power of ...

Nanoscale structure-property relationships of biological materials, genetic and molecular origins of soft joint tissue diseases, biomaterials under extreme conditions, coupling between ...

The goal of tissue engineering is to create functional tissue constructs that can replace or repair damaged tissues in the body. This image provides an overview of tissue engineering, highlighting the ...

3D bioprinting is an advanced tissue engineering ... technology for bone defect repair. Evaluation on pore geometry, porosity, mechanical strength, degradation behavior, and cell compatibility ...

By combining bioactive glass with gallium, researchers have developed a treatment with impressive potential to eliminate ...

Its affordability, abundance, and ability to retain cell binding motifs make it popular in tissue engineering. Alginate, a naturally occurring polymer, finds extensive use in bioprinting due to ...

Researchers have developed a platform that emulates human bone ... cell counts, leaving patients vulnerable to infection. Now, researchers at the University of Pennsylvania School of Engineering ...

OraGen is designed for use in dental procedures, including sinus and ridge augmentation and repairing large defects in the mandible or maxilla. Building on the proven clinical success of LifeNet ...