Abstract 3D printed scaffolds hold promising perspective for bone tissue regeneration.
Inspired by process of bone development stage, 3D printed scaffolds with rapid internal …

The suffering from organ dysfunction due to damaged or diseased tissue/bone has been
globally on the rise. Current treatment strategies for non-union bone defects include: the use …

Abstract Three-dimensional (3D) bioprinting holds promise for precise repair of bone
defects, but rapid formation of effective vascularized tissue by 3D-printed construct is still a …

Vascularization is a fundamental prerequisite for large bone construct development and
remains one of the main challenges of bone tissue engineering. Our current study presents …

The repair of large-area irregular bone defects is one of the complex problems in orthopedic
clinical treatment. The bone repair scaffolds currently studied include electrospun …

Tissue engineering is promising in realizing successful treatments of human body tissue
loss that current methods cannot treat well or achieve satisfactory clinical outcomes. In …

Three-dimensional (3D) printed scaffolds provide a promising prospective for application in
bone tissue engineering. 3D printed scaffolds with micro-and nano-fibrous structures that …

The successful regeneration of functional bone tissue in criticalsize defects remains a
significant clinical challenge. To address this challenge, synthetic bone scaffolds are widely …

Abstract Polylactic acid/Hydroxyapatite (PLA/HA) composite was widely studied and applied
in the field of biomaterials for its good processability, bioactivity, and mechanical properties …

The treatment of bone defects remains a challenging clinical problem with high
reintervention rates, morbidity, and resulting significant healthcare costs. Surgical …