Add to ORKGimplant Magnesium-Calcium (MgCa) alloys have shown very promising potential to make biodegradable metallic orthopedic implants. Biodegradable metallic implants relieve the need for second surgery and avoid stress shielding common with permanent metallic implants. Moreover, they provide enough strength in load carrying orthopedic applications as opposed to polymeric counterparts. High degradation rate of these alloys is the pressing issue resulting in subcutaneous hydrogen bubbles and high pH values and ultimately imbalance in physiological reactions. Surface modification techniques has been implemented to enhance the biocompatibility of these alloys by matching their corrosion rate with bone healing rate and absorption rate of corrosion by-...
The combination of high strength, light weight, and natural biodegradability renders magnesium (Mg) ...
INTRODUCTION: Some orthopaedics metallic implants require removal after healing so as to avoid stres...
Owing to their suitable mechanical property and biocompatibility as well as the technological possib...
AbstractMagnesium-calcium (MgCa) alloys are very promising orthopedic biomaterials with biodegradabi...
AbstractBiodegradable magnesium-calcium (MgCa) alloy is a very attractive orthopedic biomaterial com...
Magnesium-Calcium (Mg-Ca) alloy has received considerable attention as an emerging biodegradable imp...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
The use of implants for bone repair has a considerable and successful history. Traditionally, metall...
The further development of future Magnesium based biodegradable implants must consider not only the ...
As an effective and affordable technique, deep ball-burnishing has been applied to induce the plasti...
Biodegradable magnesium (Mg) alloys exhibit great potential for use as temporary structures in tissu...
Magnesium, a light-weight engineering metal, is a potential biomaterial for orthopaedic biodegradabl...
The potential of magnesium alloys as bioabsorbable / biodegradable implants for biomedical applicati...
Magnesium is an attractive metallic material for temporary implant applications. Magnesium readily d...
INTRODUCTION: Some orthopaedics metallic implants require removal after healing so as to avoid stres...
The combination of high strength, light weight, and natural biodegradability renders magnesium (Mg) ...
INTRODUCTION: Some orthopaedics metallic implants require removal after healing so as to avoid stres...
Owing to their suitable mechanical property and biocompatibility as well as the technological possib...
AbstractMagnesium-calcium (MgCa) alloys are very promising orthopedic biomaterials with biodegradabi...
AbstractBiodegradable magnesium-calcium (MgCa) alloy is a very attractive orthopedic biomaterial com...
Magnesium-Calcium (Mg-Ca) alloy has received considerable attention as an emerging biodegradable imp...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
The use of implants for bone repair has a considerable and successful history. Traditionally, metall...
The further development of future Magnesium based biodegradable implants must consider not only the ...
As an effective and affordable technique, deep ball-burnishing has been applied to induce the plasti...
Biodegradable magnesium (Mg) alloys exhibit great potential for use as temporary structures in tissu...
Magnesium, a light-weight engineering metal, is a potential biomaterial for orthopaedic biodegradabl...
The potential of magnesium alloys as bioabsorbable / biodegradable implants for biomedical applicati...
Magnesium is an attractive metallic material for temporary implant applications. Magnesium readily d...
INTRODUCTION: Some orthopaedics metallic implants require removal after healing so as to avoid stres...
The combination of high strength, light weight, and natural biodegradability renders magnesium (Mg) ...
INTRODUCTION: Some orthopaedics metallic implants require removal after healing so as to avoid stres...
Owing to their suitable mechanical property and biocompatibility as well as the technological possib...