Traditional-tissue engineering approaches (Panel A) seed cells onto a three-dimensional biomaterial scaffold that serves as a framework for new tissue development (i). The scaffold degrades as new ...

Organ failure impacts millions of patients each year and costs hundreds of billions of US Dollars. Over the last 30 years, scientists have utilized a combination of tools, methods, and molecules of ...

Cardiovascular Reparative Medicine and Tissue Engineering (CRMTE) aims to develop future technologies and therapeutic strategies that will serve as treatment for cardiovascular disease. CRMTE includes ...

A new strategy in tissue engineering has been developed: Tiny spherical microscaffolds are created in a high precision 3D printer. They are cultivated with living cells and then assembled. The cells ...

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

Natural sources, such as microorganisms (e.g., bacteria, fungi, yeast, and algae) and plant extracts, have acted as eco-friendly precursors for producing nanoparticles with several potential ...

An "out-of-this-world" project has the potential to transform the future of tissue engineering and liver transplantation through innovative research conducted aboard the International Space Station ...

This review innovatively proposes the use of electrospinning to fabricate electroactive fibrous scaffolds, which mimic the structure of the extracellular matrix while providing electrical activity, ...