Magnesium (Mg) alloys have attracted a wealth of attention in orthopedic fields for their
superior mechanical properties, degradability, and excellent biocompatibility. Consistently …

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 …

Considering the excellent biocompatibility of magnesium (Mg) alloys and their better
mechanical properties compared to polymer materials, a wrought MgZnCa alloy with low …

Together with the enhancement of the load-bearing implant process for bone substitution
and reproduction, an increasing requirement was observed concerning biodegradable …

In the present research scenario, Graphene Nanoparticles (GNPs) are considered most
suitable for reinforcement with Mg-based alloy due to their remarkable wear and mechanical …

The fast degradation and consequent loss of mechanical integrity is a major problem of
biodegradable Mg alloy, which limits its clinical viability. This paper presents the influence of …

Magnesium-based biomaterials (MBMs) are one of the most promising materials for tissue
engineering due to their unique mechanical properties and excellent functional properties …

Regenerative bone implants promote new bone formation and ideally degrade
simultaneously to osteogenesis. Although clinically established calcium phosphate bone …

Magnesium-based implants (Mg) became an attractive candidate in orthopedic surgery due
to their valuable properties, such as osteoconductivity, biodegradability, elasticity and …

The bioactivity assay originally proposed by Kokubo is one of the most commonly used tests
to indirectly evaluate the biocompatibility of bioactive glasses. However, extensive evidence …