Abstract 3D printing-based technologies can fabricate scaffolds offer great precision to
control internal architecture and print complicated structures based upon the defect site …

Bone defect caused by trauma, tumor, infection, and other reasons is a thorny problem that
needs to be solved in orthopedic clinic. Customized bone repair biomaterials and their …

Controlled pore size and desirable internal architecture of bone scaffolds play a significant
role in bone regeneration efficiency. In addition to choosing appropriate materials, the …

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 …

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

Abstract 3D-printing is an efficient method of designing customised structures and producing
synthetic bone grafts appropriate for bone implants. This research aimed to manufacture a …

Abstract 3D-printed composite scaffolds have emerged as an alternative to deal with existing
limitations when facing bone reconstruction. The aim of the study was to systematically …

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 …

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 …

Artificial bone grafts possess the advantages of good biodegradability, customizable
dimensions, and sufficient mechanical properties, which can promote cell proliferation and …