It is an urgent need that defect repair can develop from simple device fixation to living tissue
reconstruction, from short life function replacement to permanent regeneration repair. At …

Biodegradable magnesium (Mg) alloys exhibit excellent biocompatibility, adequate
mechanical properties, and osteogenic effect. They can contribute to complete recovery of …

More than 4600 papers in the field of Mg and Mg alloys were published and indexed in the
Web of Science (WoS) Core Collection database in 2022. The bibliometric analyses indicate …

Magnesium alloys are nontoxic and promising as orthopedic metallic implants, but preparing
a biocompatible Mg (OH) 2 layer with high corrosion protection ability remains challenging. It …

The effects of pore size in additively manufactured biodegradable porous magnesium on the
mechanical properties and biodegradation of the scaffolds as well as new bone formation …

Magnesium and its alloys, as a promising class of materials, is popular in lightweight
application and biomedical implants due to their low density and good biocompatibility …

Bone implant design faces multifaceted challenges, requiring the simultaneous optimization
of hierarchical porous structures, large surface areas, and appropriate elastic moduli. Triply …

Bone defects pose significant challenges in healthcare, with over 2 million bone repair
surgeries performed globally each year. As a burgeoning force in the field of bone tissue …

Long-term nonunion of bone defects has always been a major problem in orthopedic
treatment. Artificial bone graft materials such as Poly (lactic-co-glycolic acid)/β-tricalcium …

The use of biodegradable polymers for treating bone-related diseases has become a focal
point in the field of biomedicine. Recent advancements in material technology have …