Micro-or nanofiber-based materials have extensive applications in biomedical fields due to
their capability to mimic many aspects of physiological microenvironment in vivo. Fabricating …

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 …

Materials and methods Materials. All reagents and chemicals were highly pure and obtained
from Sigma Aldrich (Darmstadt, Germany), unless mentioned. All cell culture media and …

Tissue engineering is a clinically driven field and has emerged as a potential alternative to
organ transplantation. The cornerstone of successful tissue engineering rests upon two …

Tendon tissue engineering with a biomaterial scaffold that mimics the tendon extracellular
matrix (ECM) and is biomechanically suitable, and when combined with readily available …

Application of biomaterials in combination with stem cells is a novel tissue engineering
approach to regenerate cartilage. The objective of this study was to investigate the potential …

Bone tissue engineering strategies are emerging as attractive alternatives to autografts and
allografts in bone tissue reconstruction, in particular thanks to their association with …

A combination of bioceramics and polymeric nanofibers holds promising potential for bone
tissue engineering applications. In the present study, hydroxyapatite (HA), bioactive glass …

Cell-substrate interaction was functionally essential for phenotypic maintenance and
multipotency remodeling of stem cells. For bone tissue engineering, electrospinning …

Over recent decades, engineered nanoparticles are increasingly produced as the result of
the rapid development in nanotechnology. They are currently used in a wide range of …