The application of three-dimensional printed polymer scaffolds in repairing bone defects is a
promising strategy. Among them, polycaprolactone (PCL) scaffolds are widely studied due to …

3D Printed biodegradable polymeric scaffolds are critical to repair a bone defect, which can
provide the individual porous and network microenvironments for cell attachment and bone …

Abstract Three-dimensional (3D) printing is a novel process used to manufacture bone
tissue engineered scaffolds. This process allows for easy control of the architecture at the …

Three-dimensional (3D) printing application is a promising method for bone tissue
engineering. For enhanced bone tissue regeneration, it is essential to have printable …

Abstract 3D printing technology can fabricate customized scaffolds based on patient-derived
medical images, so it has attracted much attention in the field of developing bone repair …

Poly‐ε‐caprolactone (PCL) is a promising synthetic material in bone tissue engineering
(BTE). Particularly, the introduction of rapid prototyping (RP) represents the possibility of …

Three-dimensional (3D) printing technology is a promising method for bone tissue
engineering applications. For enhanced bone regeneration, it is important to have printable …

Three-dimensional porous biodegradable polymer scaffolds have been widely used for
tissue engineering of bone repair or regeneration. The primary function of scaffolds is to …

Population ageing and various diseases have increased the demand for bone grafts in
recent decades. Bone tissue engineering (BTE) using a three-dimensional (3D) scaffold …

In the study, a specific material system that contains poly-(ε-caprolactone)(PCL), polyvinyl
acetate (PVAc) and hydroxyapatite (HA) was used to fabricate porous scaffolds employing a …