A growing interest in creating advanced biomaterials with specific physical and chemical
properties is currently being observed. These high-standard materials must be capable to …

Artificial bone graft stands out for avoiding limited source of autograft as well as susceptibility
to infection of allograft, which makes it a current research hotspot in the field of bone defect …

The treatment of sizeable segmental bone defects remains a challenge encountered by
surgeons. In addition to bone transplantation, porous scaffolds have become a common …

Irregular Voronoi-based lattice (IVL) structures in tissue engineering (TE) have significant
potential for bone regeneration. These scaffolds can mimic natural human bone …

In this study, we evaluate the performance of three algorithms as computational models of
trabecular bone architecture, through systematic evaluation of morphometric, topological …

A fundamental outcome of bone tissue engineering is the regeneration of bone defects
presenting large dimensions. A promising solution in biomedical practice is the implantation …

Large bone defects remain a clinical challenge because they do not heal spontaneously. 3-
D printed scaffolds are a promising treatment option for such critical defects. Recent scaffold …

Additive manufacturing facilitates the design of porous metal implants with detailed internal
architecture. A rationally designed porous structure can provide to biocompatible titanium …

In spite of the rather large use of the fused deposition modeling (FDM) technique for the
fabrication of scaffolds, no studies are reported in the literature that optimize the geometry of …

In a technological context where, thanks to the additive manufacturing techniques, even
sophisticated geometries as well as surfaces with specific micrometric features can be …