在线提供 12 October 2023
Abstract
Magnesium
(Mg) and its alloys have recently gained increasing attention in the
biomedical field as promising biodegradable materials with harmless
degradation products. Magnesium-based alloys have a wide range of
biomedical applications because of their outstanding biocompatibility
and unique mechanical properties. Widespread use of Mg-based biomedical
devices eliminates the need for post-healing biomaterial removal surgery
and minimizes the negative consequences of the implantation of
permanent biomaterials, including stress shielding and undesired metal
ion release in the body. This paper provides a literature review on the
properties and manufacturing methods of Mg-based alloys for biomedical
applications, including orthopedic implants, cardiovascular
applications, surgical wires and staplers, and antitumor activities.
Each application of Mg-based biomaterials is investigated from a
biological perspective, including matching functional properties,
biocompatibility, host tissue responses, and anti-microbial strategies,
along with potential additive manufacturing technologies for these
applications. Finally, an outlook is presented to provide
recommendations for Mg-based biomaterials in the future.
Keywords