Bone regenerative engineering provides a great platform for bone tissue regeneration
covering cells, growth factors and other dynamic forces for fabricating scaffolds. Diversified …

In industries as diverse as automotive, aerospace, medical, energy, construction,
electronics, and food, the engineering technology known as 3D printing or additive …

Ideal bone scaffolds require good biocompatibility and moderate mechanical properties, so
as to promote the proliferation and differentiation of osteoblast cells, and achieve the good …

The pore architecture of porous scaffolds is a critical factor in osteogenesis, but it is a
challenge to precisely configure strut-based scaffolds because of the inevitable filament …

Lattice structures are composed of interconnected porous unit cells that are arranged in a
periodic and regular fashion. Their light wight and high specific strength alongside many …

Bioceramic scaffolds for repairing mandibular bone defects have considerable effects,
whereas pore architecture in porous scaffolds on osteogenesis in specific structures is still …

Ceramic materials were applied to the area of bone defect treatment for a long time. The
structure character and preparation method of ceramic scaffolds are of great importance to …

This review focuses on the advancements in additive manufacturing techniques that are
utilized for fabricating bioceramic scaffolds and their characterizations leading to bone tissue …

The implementation of a powder bed selective laser processing (PBSLP) technique for
bioactive ceramics, including selective laser sintering and melting (SLM/SLS), a laser …

The reconstruction of craniomaxillofacial bone defects remains clinically challenging. To
date, autogenous grafts are considered the gold standard but present critical drawbacks …