A range of traditional and free-form fabrication technologies have been investigated and, in
numerous occasions, commercialized for use in the field of regenerative tissue engineering …

Long‐term and stable fixation of implants is one of the most important points for a successful
orthopedic surgery in the field of endoprosthesis. Osseointegration (OI), functional …

Additive manufacturing (AM), nowadays commonly known as 3D printing, is a revolutionary
materials processing technology, particularly suitable for the production of low-volume parts …

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 …

The last decade has witnessed rapid advancements in manufacturing technologies for
biomedical implants. Additive manufacturing (or 3D printing) has broken down major …

Commercially pure titanium (cp-Ti) and titanium alloys (typically Ti6Al4V) display excellent
corrosion resistance and biocompatibility. Although the chemical composition and …

The biological interface between an orthopedic implant and the surrounding host tissue may
have a dramatic effect upon clinical outcome. Desired effects include bony ingrowth …

In orthopaedic surgery, cobalt chromium (CoCr) based alloys are used extensively for their
high strength and wear properties, but with concerns over stress shielding and bone …

The purpose of the present study was to evaluate the long-term osseointegration and
biocompatibility of electron beam melted (EBM) free-form–fabricated (FFF titanium grade 5 …

Bone replacement using porous and solid metallic implants, such as Ti-alloy implants, is
regarded as one of the most practical therapeutic approaches in biomedical engineering …