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 …

This paper provides a comprehensive overview of nanofibrous structures for tissue
engineering purposes and the role of non-thermal plasma technology (NTP) within this field …

Electrospun nanofibers have been extensively explored as a class of scaffolding materials
for tissue regeneration, because of their unique capability to mimic some features and …

Neural tissue engineering is a considerable strategy to generate new viable nerve tissue
with the help of a scaffold with appropriate chemical, mechanical, and electrical properties …

The maintenance of stem cell pluripotency or stemness is crucial to embryonic development
and differentiation. The mechanical or physical microenvironment of stem cells, which …

Central nervous system (CNS) regeneration with central neuronal connections and
restoration of synaptic connections has been a long-standing worldwide problem and, to …

The interaction of biological cells with artificial biomaterials is one of the most important
issues in tissue engineering and regenerative medicine. The interaction is strongly …

Tissue engineering is an emerging method for replacing damaged tissues. In this study, the
potential application of electrospun polycaprolactone/chitosan/the internal layer of oak fruit …

The foreign body reaction often interferes with the long-term functionality and performance of
implanted biomedical devices through fibrous capsule formation. While many implant …

Despite the unique properties of polyaniline (PANI), the processability of this smart polymer
is associated with challenges. Particularly, it is very difficult to prepare PANI nanofibers due …