BACKGROUND: Scholars are stil looking for ideal bone tissue-engineered scaffolds, and
three-dimensional (3D) printing technology is a novel construction method. In the …

BACKGROUND: The aperture of bone tissue engineering scaffold is one of the important
indexes to evaluate its biological performance, and seeking the best combination of aperture …

BACKGROUND: Polyvinyl alcohol is a biocompatible and biodegradable polymer. It is
widely used in clinical areas because of its water-soluble, film forming, emulsification …

High density polyethylene (HDPE) scaffolds were fabricated by a new “Press-and-Baking”
method without using solvents. This method involved mixing HDPE and salt particles, then …

For bone tissue engineering, the porous scaffold should provide a biocompatible
environment for cell adhesion, proliferation, and differentiation and match the mechanical …

Polycaprolactone (PCL) is one of the most usable polymers in biomedical applications.
Despite this, PCL has a natural hydrophobic character and a lack of active site for interaction …

Bioactive coating of ceramic scaffolds is an effective way to ameliorate osseointegration and
attenuate implant-induced inflammatory responses, which should be biocompatible and …

BACKGROUND: The study of the physical properties of scaffolds has always been a hot
topic in the field of tissue engineering research. However, for vascular stimulating scaffolds …

Three dimensional (3D) constructs for vascular tissue engineering applications require
scaffolds with highly porous architectures, high biocompatibility and mechanical stability. In …

BACKGROUND: Although bone tissue engineering scaffolds made of traditional methods
have made certain achievements, the three-dimensional structure, mechanical strength and …