Add to ORKGAlthough magnesium alloys have been explored intensively for application as biodegradable metal implants, there is lack of understanding of the biological response to its corrosion products and the correlation between corrosion behaviour and local tissue repair process at the implantation site. The aim of the study was to develop a reliable in vitro testing method for biodegradable implants that closely emulates the in vivo environment and to investigate the response of mesenchymal stem cells, osteoclasts, skeletal muscle cells and monocytes to both soluble (Mg ions) and insoluble (corrosion granule) corrosion products. This study has revealed that the presence of the corrosion products significantly altered the cells’ metabolic and prolife...
Magnesium alloys are presently under investigation as promising biodegradable implant materials with...
The use of bio-materials in medical applications has risen exponentially in recent years, where app...
Magnesium (Mg) was originally developed as a degradable metallic biomaterial for orthopaedic applica...
Biodegradable metals and alloys are materials that are intended to remain in the body long enough fo...
A study of biocompatibility and corrosion of both metallic magnesium (Mg) and a magnesium alloy cont...
Magnesium alloys have raised immense interest to many researchers because of its evolution as a new ...
The aim of this study was to gain an understanding on the collective cellular effects of magnesium (...
Bone fractures are an extremely common injury, with over six million occurring each year in the U.S....
Magnesium (Mg) has grasped the attention of biomaterial researchers due to its desirable properties ...
The market for orthopedic implant alloys has seen significant growth in recent years, and efforts to...
Biodegradable metals have been under significant research as alternatives to the nonbiodegradable ma...
Degradable metals hold considerable promise as materials which exhibit higher mechanical properties ...
Inert but biocompatible metals and biodegradable polymers are currently used as orthopedic fixations...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Biodegradable bone implants have the ability to be resorbed and removed from the human body after th...
Magnesium alloys are presently under investigation as promising biodegradable implant materials with...
The use of bio-materials in medical applications has risen exponentially in recent years, where app...
Magnesium (Mg) was originally developed as a degradable metallic biomaterial for orthopaedic applica...
Biodegradable metals and alloys are materials that are intended to remain in the body long enough fo...
A study of biocompatibility and corrosion of both metallic magnesium (Mg) and a magnesium alloy cont...
Magnesium alloys have raised immense interest to many researchers because of its evolution as a new ...
The aim of this study was to gain an understanding on the collective cellular effects of magnesium (...
Bone fractures are an extremely common injury, with over six million occurring each year in the U.S....
Magnesium (Mg) has grasped the attention of biomaterial researchers due to its desirable properties ...
The market for orthopedic implant alloys has seen significant growth in recent years, and efforts to...
Biodegradable metals have been under significant research as alternatives to the nonbiodegradable ma...
Degradable metals hold considerable promise as materials which exhibit higher mechanical properties ...
Inert but biocompatible metals and biodegradable polymers are currently used as orthopedic fixations...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Biodegradable bone implants have the ability to be resorbed and removed from the human body after th...
Magnesium alloys are presently under investigation as promising biodegradable implant materials with...
The use of bio-materials in medical applications has risen exponentially in recent years, where app...
Magnesium (Mg) was originally developed as a degradable metallic biomaterial for orthopaedic applica...