Biodegradable metals have attracted interest for implant applications because of the potential to eliminate secondary surgeries. Magnesium-based (Mg-based) alloys are potential candidates. The purpose of this study was to evaluate the in vitro and in vivo degradation performances of two custom-made magnesium-based alloys and to determine whether they are sustainable for further investigation. The performances of Magnesium-Zinc-Manganese (Mg-Zn-Mn) alloys at 5% and 1% zinc levels were compared using a mechanical test, hydrogen evolution test, cell viability (MTT) test, and a short term mice subcutaneous implantation. The results showed that the corrosion resistance of the Mg was improved by alloying. While Mg-5Zn-1Mn was more corrodible comp...
The successful applications of magnesium- based alloys as biodegradable orthopedic implants are main...
The application of biodegradable alloys in orthopedic implants has gained widespread attention globa...
The potential of Magnesium (Mg)-based temporary biodegradable metallic implants relies most heavily ...
Biodegradable metals have attracted interest for implant applications because of the potential to el...
Magnesium alloys have been widely explored as potential biomaterials, but several limitations to usi...
Medical application materials must meet multiple requirements, and the designed material must mimic ...
The demand for short-term degradable implant in bone fixation applications is growing steadily due t...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Background. Pure magnesium and its alloys are promising biodegradable biomaterials for cardiovascula...
Magnesium (Mg) and its alloys provide numerous unique benefits as potential resorptive biomaterials ...
Magnesium (Mg) and its alloys were initially investigated as resorbable orthopaedic biomaterials mor...
Being biocompatible and biodegradable, magnesium alloys are considered as the new generation biomedi...
In fracture management with open reduction and internal fixation with metallic implant, secondary pr...
Manganese and zinc were selected as alloying ele- ments to develop a Mg-based ternary alloy for biom...
Manganese and zinc were selected as alloying ele- ments to develop a Mg-based ternary alloy for bio...
The successful applications of magnesium- based alloys as biodegradable orthopedic implants are main...
The application of biodegradable alloys in orthopedic implants has gained widespread attention globa...
The potential of Magnesium (Mg)-based temporary biodegradable metallic implants relies most heavily ...
Biodegradable metals have attracted interest for implant applications because of the potential to el...
Magnesium alloys have been widely explored as potential biomaterials, but several limitations to usi...
Medical application materials must meet multiple requirements, and the designed material must mimic ...
The demand for short-term degradable implant in bone fixation applications is growing steadily due t...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Background. Pure magnesium and its alloys are promising biodegradable biomaterials for cardiovascula...
Magnesium (Mg) and its alloys provide numerous unique benefits as potential resorptive biomaterials ...
Magnesium (Mg) and its alloys were initially investigated as resorbable orthopaedic biomaterials mor...
Being biocompatible and biodegradable, magnesium alloys are considered as the new generation biomedi...
In fracture management with open reduction and internal fixation with metallic implant, secondary pr...
Manganese and zinc were selected as alloying ele- ments to develop a Mg-based ternary alloy for biom...
Manganese and zinc were selected as alloying ele- ments to develop a Mg-based ternary alloy for bio...
The successful applications of magnesium- based alloys as biodegradable orthopedic implants are main...
The application of biodegradable alloys in orthopedic implants has gained widespread attention globa...
The potential of Magnesium (Mg)-based temporary biodegradable metallic implants relies most heavily ...