Electrospun nanofibers have been considered as relatively ideal material system for the
design and construction of surgical wound dressings in the past few decades. Although …

Regeneration of bone tissue requires novel load bearing, biocompatible materials that
support adhesion, spreading, proliferation, differentiation, mineralization, ECM production …

Intravital microscopy (IVM) study approach offers several advantages over in vitro, ex vivo,
and 3D models. IVM provides real-time imaging of cellular events, which provides us a …

Mimicking the native three-dimensional microenvironment is of crucial importance when
biofabricating a new healthcare material. One aspect of the native tissue that is often omitted …

Biomimetic scaffolds recreating key elements of the architecture and biological activity of the
extracellular matrix have enormous potential for soft tissue engineering applications …

At present, no suitable method exists for tendon fixation after artificial prosthetic implantation.
Researching and determining the optimal factors for biological fixation between the tendon …

Considering the specificity of periodontium and the unique advantages of electrospinning,
this technology has been used to fabricate biodegradable tissue engineering materials for …

The aim of this study was to look at how the composition and morphology of polymer
scaffolds could be altered to create an optimized environment for endothelial cells. Four …

Tissue engineering of ligaments and tendons aims to reproduce the complex and
hierarchical tissue structure while meeting the biomechanical and biological requirements …

Background: Owing to limited self-healing capacity, failure of rotator cuff tendon healing is a
common complication after surgery. Biological scaffolds have garnered attention owing to …