In order to overcome the shortcomings related to unspecific and partially efficient
conventional wound dressings, impressive efforts are oriented in the development and …

Electrospinning is a versatile technique used to create native tissue-like fibrous scaffolds.
Recently, it has gained a large amount of attention for generation of bioactive dressing …

Skin wounds have significant morbidity and mortality rates associated. This is explained by
the limited effectiveness of the currently available treatments, which in some cases do not …

Electrospun nanofibers represent a novel class of materials that show great potential in
many biomedical applications including biosensing, regenerative medicine, tissue …

While the soft mechanics and tunable cell interactions facilitated by hydrogels have attracted
significant interest in the development of functional hydrogel-based tissue engineering …

Compared with other nanofiber fabrication processes, electrospinning is versatile and
superior in production and construction of ordered or more complex nanofibrous …

Abstract Development of natural protein-based fibrous scaffolds with tunable physical
properties and biocompatibility is highly desirable to construct three-dimensional (3D), fully …

Cutaneous wound repair is a highly coordinated cascade of cellular responses to injury
which restores the epidermal integrity and its barrier functions. Even under optimal healing …

Three-dimensional biomimetic scaffolds have widespread applications in biomedical tissue
engineering because of their nanoscaled architecture, eg, nanofibers and nanopores …

Electrospinning is one of the most effective approaches to fabricate tissue-engineered
scaffolds composed of nano-to sub-microscale fibers that simulate a native extracellular …