Magnesium (Mg) is the fourth most abundant element in the human body and is important in
terms of specific osteogenesis functions. Here, we provide a comprehensive review of the …

Biodegradable Mg‐based metals may be promising orthopedic implants for treating
challenging bone diseases, attributed to their desirable mechanical and osteopromotive …

Traditional orthopedic metal implants, such as titanium (Ti), Ti alloys, and cobalt-chromium
(Co-Cr) alloys, cannot be degraded in vivo. Fracture patients is must always suffer a second …

Abstract Titanium (Ti) and Ti alloys are commonly used in dental implants, which have good
biocompatibility, mechanical strength, processability, and corrosion resistance. However, the …

Biomedical implants have been widely used in various orthopedic treatments, including total
hip arthroplasty, joint arthrodesis, fracture fixation, non-union, dental repair, etc. The modern …

Repairing infected bone defects is a challenge in the field of orthopedics because of the
limited self‐healing capacity of bone tissue and the susceptibility of refractory materials to …

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

Abstract Magnesium cation (Mg 2+) has been an emerging therapeutic agent for inducing
vascularized bone regeneration. However, the therapeutic effects of current magnesium …

Compared with non-degradable materials, biodegradable biomaterials play an increasingly
important role in the repairing of severe bone defects, and have attracted extensive attention …

The regulatory role of the immune system in maintaining bone homeostasis and restoring its
functionality, when disturbed due to trauma or injury, has become evident in recent years …