Electrospinning technology has been widely used in the past few decades to prepare
nanofibrous scaffolds that mimic extracellular matrices. However, traditional two …

Collagen fibers are usually arranged with a complex structure in the body, and their
arrangement is considered to play an important role in stimulating cell adhesion, migration …

Bioactive composites made of∽ 85 wt% poly (ε-caprolactone)(PCL) and∽ 15 wt%
nanometric hydroxyapatite (HA) produced from biogenic sources were 3D printed by an …

Electrospun fibers have received significant interests for various application areas such as
filtration, composites and biomedical products due to their large surface area, good …

Conventional electrospinning produces nanofibers with smooth surfaces that limit
biomineralization ability. To overcome this disadvantage, we fabricated a …

Accurate repair of osteochondral defects is a great challenge due to the complex structure of
osteochondral defects. The current study aims to prepare a biomimetic osteochondral …

Naturally bone is a hierarchical and highly integrative dynamic tissue that is continuously
remodeled by osteoblasts and osteoclasts. Deformities in bone due to trauma and/or …

Tissue engineering of human fetal osteoblast cells was investigated on gelatin‐
hydroxyapatite (HA), crosslinked, electrospun oriented fiber scaffolds at the different HA …

In situ regeneration of large-segment bone defects is a difficult clinical problem. Here, we
innovatively developed magnetically oriented micro-cellulose fibres using nano …

In tissue engineering, it is common to mix drugs that can control proliferation and
differentiation of cells into polymeric solutions as part of composite to get bioactive scaffolds …