Bone regenerative engineering provides a great platform for bone tissue regeneration
covering cells, growth factors and other dynamic forces for fabricating scaffolds. Diversified …

Unique properties and potential applications of nanofibers have emerged as innovative
approaches and opportunities in the biomedical, healthcare, environmental, and biosensor …

Regeneration of bone tissue requires novel load bearing, biocompatible materials that
support adhesion, spreading, proliferation, differentiation, mineralization, ECM production …

Tissue engineering represents an advanced approach to treating patients who have
suffered tissue or organ loss or failure, with the ultimate goals of tissue restoration and …

Bone tissue engineering (BTE) is an optimized approach for bone regeneration to overcome
the disadvantages of lacking donors. Biocompatibility, biodegradability, simulation of …

Tissue engineering (TE) is a therapeutic option within regenerative medicine that allows to
mimic the original cell environment and functional organization of the cell types necessary …

Bone-tissue engineering is an alternative treatment for bone defects with great potential in
which scaffold is a critical factor to determine the effect of bone regeneration. Electrospun …

The accumulation of plastic waste resulting from the increasing demand for non-degradable
plastics has led to a global environmental crisis. The severe environmental and economic …

In recent decades, three-dimensional (3D) cell culture technologies have been developed
rapidly in the field of tissue engineering and regeneration, and have shown unique …

The repair of bone defects with irregular shapes, particularly in a minimally invasive manner,
remains a major challenge. For synthetic bone grafts, injectable hydrogels are superior to …