Add to ORKGMississippi State University-based researchers reported on the macrophage-mediated biocorrosion of a Co-Cr-Mo implant alloy in vitro. Corrosion was evaluated by measuring total charge transfer at a constant potential using a potentiostat, and metal ion release by atomic emission spectroscopy. Alloy corrosion properties were enhanced by observing the open circuit potential (OCP), charge transfer, metal ion release, and changes in surface oxides. Effects of corrosion on the cells were determined by evaluating proliferation, viability, and metabolism
The most common metallic biomaterials are 316L, Co-28Cr-6Mo, and Ti-6Al-4V alloys used as prostheses...
Improvements in the lubrication of metal–metal joint prostheses are of great clinical interest in or...
The literature on animal and cellular models used to study the response to cobalt chrome alloy impla...
Mississippi State University-based researchers reported on the macrophage-mediated biocorrosion of a...
We hypothesized that macrophage cells and their released reactive chemical species (RCS) affect Co-C...
Titanium and 316L stainless steel are popular orthopedic implant alloys because of their mechanical ...
Corrosion of implant alloys releasing metal ions has the potential to cause adverse tissue reactions...
In vitro corrosion tests have not evaluated the role of cells on the corrosion of implant quality 31...
Orthopedic metal implant materials may mediate a variety of adverse tissue reactions by releasing io...
STATEMENT OF PROBLEM: Metal ions released into the oral cavity from dental prosthesis alloys may dam...
Concerns exist over the potential release of elevated levels of metal ions such as Ni and Be from Ni...
All metals in contact with a biological system undergo corrosion through an electrochemical redox re...
International audiencehe test conditions currently used in biotribocorrosion devices often differ gr...
Macrophages are the main cells involved in inflammatory processes and in the primary response to deb...
Metallic biomaterials used for orthopedic and other biomedical applications are often subjected to c...
The most common metallic biomaterials are 316L, Co-28Cr-6Mo, and Ti-6Al-4V alloys used as prostheses...
Improvements in the lubrication of metal–metal joint prostheses are of great clinical interest in or...
The literature on animal and cellular models used to study the response to cobalt chrome alloy impla...
Mississippi State University-based researchers reported on the macrophage-mediated biocorrosion of a...
We hypothesized that macrophage cells and their released reactive chemical species (RCS) affect Co-C...
Titanium and 316L stainless steel are popular orthopedic implant alloys because of their mechanical ...
Corrosion of implant alloys releasing metal ions has the potential to cause adverse tissue reactions...
In vitro corrosion tests have not evaluated the role of cells on the corrosion of implant quality 31...
Orthopedic metal implant materials may mediate a variety of adverse tissue reactions by releasing io...
STATEMENT OF PROBLEM: Metal ions released into the oral cavity from dental prosthesis alloys may dam...
Concerns exist over the potential release of elevated levels of metal ions such as Ni and Be from Ni...
All metals in contact with a biological system undergo corrosion through an electrochemical redox re...
International audiencehe test conditions currently used in biotribocorrosion devices often differ gr...
Macrophages are the main cells involved in inflammatory processes and in the primary response to deb...
Metallic biomaterials used for orthopedic and other biomedical applications are often subjected to c...
The most common metallic biomaterials are 316L, Co-28Cr-6Mo, and Ti-6Al-4V alloys used as prostheses...
Improvements in the lubrication of metal–metal joint prostheses are of great clinical interest in or...
The literature on animal and cellular models used to study the response to cobalt chrome alloy impla...