Abstract 3D printing is a promising technique for obtaining bone implants. However, 3D
printed bone implants, especially those printed using fused deposition modelling, are still in …

This study outlines the useful biopolymer composites, using additive manufacturing (AM)
techniques to print biodegradable materials for bone implant. It examined the history of …

Three-dimensional (3D) printing has become an important tool in the field of tissue
engineering and its further development will lead to completely new clinical possibilities …

Objective: This study aimed to analyze the effect of fabrication factors on both biological and
physico-chemical features of 3-dimensional (3D) printed composite scaffolds. Method …

The effect of polymer infiltration on the compressive strength of β-tricalcium phosphate (TCP)
scaffolds fabricated by robocasting (direct write assembly) is analyzed in this work. Porous …

Over the last decade, advances in additive manufacturing have allowed to obtain complex
3D porous lattice in materials suitable for orthopedic applications. Whereas 3D‐melted …

Binder jetting additive manufacturing is an emerging technology with capability of
processing a wide range of commercial materials, including metals and ceramics (316 SS …

Traditional metallic scaffold prostheses, as vastly applied implants in clinical orthopedic
operations, have achieved great success in rebuilding limb function. However, mismatch of …

The incidence of bone disorders, whether due to trauma or pathology, has been trending
upward with the aging of the worldwide population. The currently available treatments for …

Bone tissue exhibits critical factors for metastatic cancer cells and represents an extremely
pleasant spot for further growth of tumors. The number of metastatic bone lesions and …