Tissue engineering makes use of the principles of medicine, biology and engineering and
integrates them into the design of biological substitutes to restore, maintain and improve the …

During the past two decades, tissue engineering and the regenerative medicine field have
invested in the regeneration and reconstruction of pathologically altered tissues, such as …

Biomaterial-based scaffolds are important cues in tissue engineering (TE) applications.
Recent advances in TE have led to the development of suitable scaffold architecture for …

Materials used for wound care have evolved from simple covers to functional wound
dressings with bioactive properties. Electrospun nanofibers show great similarity to the …

Effective wound care is a major concern as many conventional wound healing methods and
materials have failed in facilitating proper healing, instead disrupts the overall healing …

The relevance for in vitro three-dimensional (3D) tissue culture of skin has been present for
almost a century. From using skin biopsies in organ culture, to vascularized organotypic full …

Tissue engineering is a derivative of biomedical engineering, which deals with the repair
and regeneration of organs or their tissues. Cell-embedded porous polymeric scaffolds …

Anti-bacterial scaffolds made of copper, bronze and silver particles filled PLA
nanocomposites were realized via fused filament fabrication (FFF), additive manufacturing …

Over the past decades, age-related pathologies have increased abreast the aging
population worldwide. The increased age of the population indicates that new tools, such as …

Abstract Electrospun poly (ƹ-caprolactone)(PCL) scaffolds incorporated with bioactive
materials play a key role in tissue engineering applications due to their extra cellular matrix …