Applying extrusion-based 3D printing technique accelerates fabricating complex biphasic calcium phosphate-based scaffolds for bone tissue regeneration.

ABSTRACT

BACKGROUND: Tissue engineering (TE) is the main approach for stimulating the body's mechanisms to regenerate damaged or diseased organs. Bone and cartilage tissues due to high susceptibility to trauma, tumors, and age-related disease exposures are often need for reconstruction. Investigation on the development and applications of the novel biomaterials and methods in bone tissue engineering (BTE) is of great importance to meet emerging today's life requirements. AIM OF REVIEW Biphasic calcium phosphates (BCPs) offer a chemically similar biomaterial to the natural bone, which can significantly promote cell proliferation and differentiation and accelerate bone formation and reconstruction. Recent advancements in the bone scaffold fabrication have led to employing additive manufacturing (AM) methods. Extrusion-based 3D printing, known also as robocasting method, is one of the extensively used AM techniques in BTE applications. This review discusses materials and methods utilized for BCP robocasting. KEY SCIENTIFIC CONCEPTS OF REVIEW Recent advancements and existing challenges in the use of additives for bioink preparation are critically discussed. Commercialization and marketing approach, post-processing steps, clinical applications, in-vitro and in-vivo evaluations beside the biological responses are also reviewed. Finally, possible strategies and opportunities for the use of BCP toward injured bone regeneration are discussed.