BACKGROUND: 3D printing technology provides possibility for the preparation of an ideal
bone tissue engineering scaffold with high individualization, precise regulation of the …

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 …

BACKGROUND: The repair of large-scale bone defects is still facing serious challenges. It is
of great significance to develop personalized, low-cost, and osteogenic-inducing tissue …

Some basic requirements of bone tissue engineering include cells derived from bone
tissues, three-dimensional (3D) scaffold materials, and osteogenic factors. In this framework …

Bone scaffold with fully interconnected pores whose sizes are gradient structured can be
prepared by 3-dimensional (3D) printing technology, and has presented important value in …

Repair of critical bone defects is a challenge in the orthopedic clinic. 3D printing is an
advanced personalized manufacturing technology that can accurately shape internal …

BACKGROUND: In the repair of bone defects, it is often necessary to implant the bone
scaffold material to restore the corresponding tissue structure at the injury site. 3D printing …

Repair and regeneration of large bone defects is still a challenge, especially for defects
which are the irregular and complex. Three-dimension (3D) printing, as an advanced …

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

Objective: To biologically evaluate the three-dimensional (3D) printed co-poly lactic
acid/glycolic acid/tri-calcium phosphate (PLGA/TCP) scaffold which could be used for …