Biodegradable polymeric biomaterials offer a significant advantage in disposable or fast-
consuming products in medical applications. Poly (3-hydroxybutyrate-co-3-hydroxyvalerate) …

Many types of polymer nanofibers have been introduced as artificial extracellular matrices.
Their controllable properties, such as wettability, surface charge, transparency, elasticity …

Being designated to protect other tissues, skin is the first and largest human body organ to
be injured and for this reason, it is accredited with a high capacity for self-repairing …

Unique features of nanofibers provide enormous potential in the field of biomedical and
healthcare applications. Many studies have proven the extreme potential of nanofibers in …

Hierarchically structured polymer fibers encompassing 1-D, 2-D, and 3-D structures with at
least one dimension nano-to micro-meters in size have recently received an increasing …

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

Management of chronic diabetic ulcers remains as a major challenge in healthcare which
requires extensive multidisciplinary approaches to ensure wound protection, management …

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 …

The paucity of cellular and molecular signals essential for normal wound healing makes
severe dermatological ulcers stubborn to heal. The novel strategies of skin regenerative …

Highlights•Electrospun scaffolds physically mimic the native extracellular matrix.•Techniques
for physicochemical and biological characterization of scaffolds are discussed.•MSCs have …