In this work, the fatigue and cellular performance of novel superficially treated porous titanium dental implants made up using conventional powder metallurgy and space-holder techniques (30 vol.% and 50 vol.%, both with a spacer size range of 100–200 µm) are evaluated. Before the sintering stage, a specific stage of CNC milling of the screw thread of the implant is used. After the consolidation processing, different surface modifications are performed: chemical etching and bioactive coatings (BG 45S5 and BG 1393). The results are discussed in terms of the effect of the porosity, as well as the surface roughness, chemical composition, and adherence of the coatings on the fatigue resistance and the osteoblast cells’ behavior for the proposed...
Osseointegration capacity and good mechanical behavior are key to the success of the dental implant....
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
In this study, highly-interconnected porous titanium implants were produced by powder sintering with...
Titanium currently used in biomedical implant applications has shown some limitations, one of the mo...
Due to its good biocompatibility, porous titanium is an interesting material for biomedical applicat...
Implants are increasingly gaining importance in modern medicine. For loaded implants, such as dental...
Objective: This study focuses on the fatigue behavior of titanium dental implants as-received, with ...
Recently, an increasing amount of research has focused on the biological and mechanical behavior of ...
This study focuses on the fatigue behavior and bone-implant attachment for the more usual surfaces o...
Bio-functionalizing surface treatments are often applied for improving the bioactivity of biomateria...
Intervertebral implants should be designed with low load requirements, high friction coefficient and...
Musculoskeletal disorders are recognized amongst the most significant human health problems that exi...
The use of cementless load bearing implants account for half of all hip prostheses currently manufac...
Titanium implant failures are mainly related to stress shielding phenomenon and the poor cell intera...
In this study, highly-interconnected porous titanium implants were produced by powder sintering with...
Osseointegration capacity and good mechanical behavior are key to the success of the dental implant....
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
In this study, highly-interconnected porous titanium implants were produced by powder sintering with...
Titanium currently used in biomedical implant applications has shown some limitations, one of the mo...
Due to its good biocompatibility, porous titanium is an interesting material for biomedical applicat...
Implants are increasingly gaining importance in modern medicine. For loaded implants, such as dental...
Objective: This study focuses on the fatigue behavior of titanium dental implants as-received, with ...
Recently, an increasing amount of research has focused on the biological and mechanical behavior of ...
This study focuses on the fatigue behavior and bone-implant attachment for the more usual surfaces o...
Bio-functionalizing surface treatments are often applied for improving the bioactivity of biomateria...
Intervertebral implants should be designed with low load requirements, high friction coefficient and...
Musculoskeletal disorders are recognized amongst the most significant human health problems that exi...
The use of cementless load bearing implants account for half of all hip prostheses currently manufac...
Titanium implant failures are mainly related to stress shielding phenomenon and the poor cell intera...
In this study, highly-interconnected porous titanium implants were produced by powder sintering with...
Osseointegration capacity and good mechanical behavior are key to the success of the dental implant....
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
In this study, highly-interconnected porous titanium implants were produced by powder sintering with...