Nanofiber scaffolds have emerged as a revolutionary drug delivery platform for promoting
wound healing, due to their unique properties, including high surface area, interconnected …

Modern research has evolved several approaches toward skin regeneration and one of the
novel concerns is the use of polymer-based systems due to their excellent beneficial …

ABSTRACT 3D bioprinting can generate the organized structures found in human skin for a
variety of biological, medical, and pharmaceutical applications. Challenges in bioprinting …

Develo** new techniques to prepare free-standing tubular scaffolds has always been a
challenge in the field of regenerative medicine. Here, we report a new and simple way to …

Fibroblasts are among the most common cell types in the stroma responsible for creating
and maintaining the structural organization of the extracellular matrix in the dermis, skin …

Develo** superior bioinks present several challenges in achieving ideal properties such
as biocompatibility, viscosity, degradation rates & mechanical properties which are required …

Self-assembled fibrinogen nanofibers are promising candidates for skin tissue engineering
due to their biocompatibility and ability to mimic the native blood clot architecture. Here, we …

In the present study, the effectiveness of biomedical titanium (Ti) with plasma oxidation,
polymerization, and albumin immobilization in producing a bioactive surface (Ti/rutile TiO …

In develo** three‐dimensional (3D) human skin equivalents (HSEs), preventing dermis
and epidermis layer distortion due to the contraction of hydrogels by fibroblasts is a …

Nanofiber scaffolds have emerged as a revolutionary drug delivery platform for promoting
wound healing, due to their unique properties, including high surface area, interconnected …