Electrospinning is widely accepted as a technique for the fabrication of nanofibrous three-
dimensional (3D) scaffolds which mimic extracellular matrix (ECM) microenvironment for …

Tissue engineering is an interdisciplinary field that integrates medical, biological, and
engineering expertise to restore or regenerate the functionality of healthy tissues and …

Electrospinning is an exceptional technology to fabricate sub-micrometric fiber scaffolds for
regenerative medicine applications and to mimic the morphology and the chemistry of the …

Diabetic wounds (DW) are constantly challenged by excessive reactive oxygen species
(ROS) accumulation and susceptibility to bacterial contamination. Therefore, the elimination …

Fiber‐based approaches hold great promise for tendon tissue engineering enabling the
possibility of manufacturing aligned hydrogel filaments that can guide collagen fiber …

In the development of technology, a source of inspiration for mankind is the nature.
Naturally, many biological surfaces having unique micro–nanostructures, such as lotus …

The study is aimed to synthesize potent metal oxide based biomimetic nanocomposites to
overcome the risk associated with artificial bone tissue engineering. High purity TiO 2 …

Adult tendon tissue demonstrates a limited regenerative capacity, and the natural repair
process leaves fibrotic scar tissue with inferior mechanical properties. Surgical treatment is …

Over the last few years, traditional drug delivery systems (DDSs) have been transformed into
smart DDSs. Recent advancements in biomedical nanotechnology resulted in introducing …

Tendon injuries are frequent and occur in the elderly, young, and athletic populations. The
inadequate number of donors combined with many challenges associated with autografts …