To improve osseointegration caused by the stress-shielding effect and the inert nature of
titanium-based alloys, in this work, we successfully constructed a strontium calcium …

Osseointegration is vital for the success of non-degradable implants like those made of
titanium alloys. In order to promote osseointegration, implants are made porous, providing …

Titanium alloys with various porous structures can be fabricated by advanced additive
manufacturing techniques, which are attractive for use as scaffolds for bone defect repair …

Ti6Al4V scaffolds have high strength and corrosion resistance. 3D printing technology can
optimize the pore structure of Ti6Al4V scaffolds, promoting bone tissue growth into the …

In recent years, additive manufacturing techniques have been used to fabricate 3D titanium
(Ti)-based scaffolds for production of desirable complex shapes. However, insufficient …

Abstract Three-dimensional (3D)-printed porous Ti6Al4V implants play an important role in
the reconstruction of bone defects. However, its osseointegration capacity needs to be …

In the present study, biocomposites based on 3D porous additively manufactured Ti6Al4V
(Ti64) scaffolds modified with biocompatible calcium phosphate nanoparticles (CaPNPs) …

Metallic implants with a low effective modulus can provide early load-bearing and reduce
stress shielding, which is favorable for increasing in vivo life-span. In this research, porous …

Background Femoral stem of titanium alloy has been widely used for hip arthroplasty with
considerable efficacy; however, the application of this implant in patients with osteoporosis …

The study investigates the potential of porous scaffolds with Gel/Alg-IGF-1 coatings as a
viable candidate for orthopaedic implants. The scaffolds are composed of additively …