The growing interest in multi-functional metallic biomaterials for bone substitutes challenges
the current additive manufacturing (AM,= 3D printing) technologies. It is foreseeable that …

Alloy based implants have made a great impact in the clinic and in preclinical research.
Immune responses are one of the major causes of failure of these implants in the clinic …

Degradable metallic biomaterials represent a new concept of bioactive biomaterials used for
implants with temporary function. They should support the tissue healing process for a …

With the ability to fabricate complex structures while meeting individual needs, additive
manufacturing (AM) offers unprecedented opportunities for bone tissue engineering in the …

Biodegradable materials have attracted a great attention in material engineering and
medical community in the last decade. In certain cases, degradable implants may overcome …

Additive manufacturing (AM) has been emerged recently as a promising technique to
manufacture biomaterials for bioimplants creating a high impact in the field of medical …

Advances in biomedicine and development of modern technologies in the last century have
fostered the improvement in human longevity and well-being. This progress simultaneously …

With the ability to fabricate complex structures while meeting individual needs, additive
manufacturing (AM) offers unprecedented opportunities for bone tissue engineering in the …

Metallic biodegradable bone graft substitutes are still in the early stages of development.
Nonetheless, they promise to provide a solution to taxing orthopaedic scenarios involving …

Advances in biomedicine and development of modern technologies in the last century have
fostered the improvement in human longevity and well-being. This progress simultaneously …