Large bone defects are a challenge for orthopedic surgery. Natural (bone grafts) and
synthetic biomaterials have been proposed but several problems arise such as …

Porous biomaterials promote osseointegration. We have prepared porous titanium cylinders
by additive manufacturing from titanium beads. Two types of morphology were tested …

The additive manufacturing techniques (AM) are able to realize three-dimensional
trabecular structures that mimic the trabecular structure of the bone. An in vivo study in …

Background: This study investigated the design and osseointegration process of transitive
porous implants that can be used in humans and all trabecular and compact bone structure …

Background and Objectives: Three-dimensional (3D) metallic trabecular structures made by
additive manufacturing (AM) technologies promote new bone formation and …

The osseointegration in/around additively manufactured (AM) lattice structures of a new
titanium alloy, Ti–19Nb–14Zr, was evaluated. Different lattices with increasingly high …

Introduction: Titanium-based implants can be used to fill voids in bone reconstruction
surgery. Through additive manufacturing (AM), it is possible to produce titanium implants …

Nowadays, post-surgical or post-accidental bone loss can be substituted by custom-made
scaffolds fabricated by additive manufacturing (AM) methods from metallic powders …

Objective: To study the effects of different structures (solid/hollow) and pore diameters
(300/600 μm) on bone ingrowth. Methods: Porous titanium alloy scaffolds (3.2* 10.5 mm) …

Restoration of segmental defects in long bones remains a challenging task in orthopedic
surgery. Although autologous bone is still the 'Gold Standard'because of its high …