| Title | Characterization of two DLC coatings for joint prosthesis: The role of albumin on the tribological behavior |
| Publication Type | Journal Article |
| 2010 |
| Authors | Carapeto, AP, Serro, AP, Nunes, BMF, Martins, MCL, Todorovic, S, Duarte, MT, André, V, Colaço, R, Saramago, B |
| Journal | Surface and Coatings TechnologySurf. Coat. Technol. |
| Volume | 204 |
| Issue | 21-22 |
| Pagination | 3451 - 3458 |
| Date Published | 2010/// |
| 02578972 (ISSN) |
| Adsorbed amount, Adsorption, Albumin adsorption, Atomic force microscopy, Atomic spectroscopy, Biomedical applications, Chemical inertness, Corrosion resistant alloys, Diamond like carbon, DLC coatings, Friction, Hard coatings, Joint prostheses, Mechanical and tribological properties, Mechanical properties, Microtribology, Microtribometer, Nonmetallic matrix composites, Oxide minerals, Polyethylenes, Proteins, Quartz, Raman spectroscopy, Scanning electron microscopy, Sliding surface, Stainless steel, Stainless steel surface, Steel corrosion, Surfaces, Tribological behaviors, Tribological mechanism, Tribological performance, Tribological tests, Tribology, UHMW-PE, UHMWPE, Ultramicrohardness, Wear and friction, Wettability measurements, X ray diffraction |
| A commonly used strategy for reduction of wear and friction of the sliding surfaces in prosthetic pairs is the use of hard coatings. DLCs (diamond like carbons) offer a promising solution, because these coatings, already used in other biomedical applications, exhibit a unique combination of chemical inertness, mechanical and tribological properties. In the present work we investigated the role of albumin, the most abundant protein in the periprosthetic fluid, on the tribological behavior of two DLCs with different compositions, against ultra-high molecular weight polyethylene (UHMWPE). The results are compared with those obtained with uncoated stainless steel surfaces. We have characterized the coatings by atomic force microscopy, X-ray diffraction, Raman spectroscopy, ultramicrohardness and wettability measurements. The adsorption of albumin onto the surfaces was investigated by ellipsometry and using a quartz crystal microbalance. Both DLCs adsorb a larger amount of protein than stainless steel. The tribological tests were performed in microtribometer aiming for a deeper understanding of the tribological mechanisms which occur at the submicrometric contact scale. Results showed no significant differences between the tribological behavior of the two coatings. Under the tested conditions, the tribological performance does not improve significantly with the application of the DLCs. Moreover, the presence of albumin on the lubricant leads to higher friction of the polymer against all counterfaces. This effect was attributed to the formation of bridges between the two sliding surfaces by the denaturated protein. The significant differences in the adsorbed amounts of protein onto the stainless steel and the two types of DLCs did not affect considerably the tribological behavior of these materials. © 2010 Elsevier B.V. |
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