The use of bioactive materials has become a standard tool in the arsenal of tissue
engineering and regenerative medicine applications. Bioactive materials have gained …

Repairing significant bone defects remains a critical challenge, raising the clinical demand
to design novel bone biomaterials that incorporate osteogenic and angiogenic properties to …

Silk fibroin is a natural protein which has shown great promise for tissue engineering but is
not printable due to slow gelation or harsh gelation conditions which are not cell-friendly. In …

A bilayer membrane (GKU) with a commercial polyurethane wound dressing as an outer
layer and electrospun gelatin/keratin nanofibrous mat as an inner layer was fabricated as a …

Biofabrication can be a tool to three-dimensionally (3D) print muscle cells embedded inside
hydrogel biomaterials, ultimately aiming to mimic the complexity of the native muscle tissue …

Hydrogels that allow for the successful long-term in vitro culture of cell–biomaterial systems
to enable the maturation of tissue engineering constructs are highly relevant in regenerative …

Abstract Three-dimensional (3D) printing technology enables the design of personalized
scaffolds with tunable pore size and composition. Combining decellularization and 3D …

Within the past 25 years, tissue engineering (TE) has grown enormously as a science and
as an industry. Although classically concerned with the recapitulation of tissue and organ …

Keratin, a naturally-derived polymer derived from human hair, is physiologically
biodegradable, provides adequate cell support, and can self-assemble or be crosslinked to …

Large-sized or deep skin wounds require skin substitutes for proper healing without scar
formation. Therefore, multi-layered skin substitutes that mimic the genuine skin anatomy of …