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1.
Ann Chim ; 91(5-6): 343-54, 2001.
Article in English | MEDLINE | ID: mdl-11507838

ABSTRACT

The mechanism of corrosion of Cu-xZn alloys (x = 10-40 wt %) in slightly alkaline chloride solutions was investigated by analysing solid reaction products by energy dispersive X-ray analysis (EDS) and dissolved reaction products by differential anodic pulse stripping (DAPS) voltammetry. The corrosion process was studied under open circuit and under potentiostatic conditions at selected potentials. Pure metals were studied comparatively so that an interacting effect of particular metal components in the alloy could be determined. All four Cu-xZn alloys show an improved behaviour compared to pure metals. Under open-circuit condition both components dissolve simultaneously in the solution. With increasing immersion time the preferential, dissolution of zinc in the solution becomes pronounced. It is the highest for Cu-10Zn and the lowest for Cu-30Zn alloy. Under potentiostatic control the dissolution mechanism depends on the electrode potential and changes from exclusive dissolution of zinc to simultaneous dissolution of both components with preferential dissolution of zinc. The latter decreases, as the electrode potential becomes more positive.


Subject(s)
Copper/chemistry , Zinc Compounds/chemistry , Alloys/chemistry , Chemistry Techniques, Analytical/methods , Chlorides/chemistry , Electrochemistry , Electrodes , Hydrogen-Ion Concentration , Solubility
2.
J Bone Joint Surg Br ; 83(8): 1182-90, 2001 Nov.
Article in English | MEDLINE | ID: mdl-11764437

ABSTRACT

We analysed revised Mathys isoelastic polyacetal femoral stems with stainless-steel heads and polyethylene acetabular cups from eight patients in order to differentiate various types of particle of wear debris. Loosening of isoelastic femoral stems is associated with the formation of polyacetal wear particles as well as those of polyethylene and metal. All three types of particle were isolated simultaneously by tissue digestion followed by sucrose gradient centrifugation. Polyacetal particles were either elongated, ranging from 10 to 150 microm in size, or shred-like and up to 100 microm in size. Polyethylene particles were elongated or granules, and were typically submicron or micron-sized. Polyacetal and polyethylene polymer particles were differentiated by the presence of BaSO4, which is added as a radiopaque agent to polyacetal but not to polyethylene. This was easily detectable by back-scattered SEM analysis and verified by energy dispersive x-ray analysis. Two types of foreign-body giant cell (FBGC) were recognised in the histological specimens. Extremely large FBGCs with irregular polygonal particles showing an uneven, spotty birefringence in polarised light were ascribed to polyacetal debris. Smaller FBGCs with slender elongated particles shining uniformly brightly in polarisation were related to polyethylene. Mononucleated histiocytes containing both types of particle were also present. Our findings offer a better understanding of the processes involved in the loosening of polyacetal stems and indicate why the idea of 'isoelasticity' proved to be unsuccessful in clinical practice.


Subject(s)
Hip Prosthesis , Prosthesis Failure , Adult , Aged , Biomechanical Phenomena , Female , Foreign-Body Reaction/pathology , Humans , Male , Middle Aged , Particle Size , Polyethylenes , Reoperation
3.
J Bone Joint Surg Br ; 82(3): 352-7, 2000 Apr.
Article in English | MEDLINE | ID: mdl-10813168

ABSTRACT

We describe three prostheses with cemented titanium-alloy stems and Al2O3 ceramic femoral heads which had to be revised after a mean period of implantation of 78 months. In each case, the neck of the prosthesis had been so severely worn that the profile was elliptical rather than circular. There was severe metallosis of the periprosthetic tissues. Metal particles isolated from the tissues were approximately one nanometre in size and the ratios of titanium, aluminium and vanadium in the particles were the same as in the original alloy. Histologically, the high concentration of metal particles masked the presence of high-density polyethylene (HDP) debris, but again particles about one nanometre in size were isolated from the tissues. The severe necrobiosis and necrosis noted were consistent with other reports of the presence of extensive wear particles in periprosthetic tissues. Wear is presumed to have occurred as a result of mismatch between the shape or size of the taper cone and the femoral head, or to changes in the geometry of loading due to migration of the cup. To facilitate early intervention, patients with this design of prosthesis should be monitored radiologically.


Subject(s)
Aluminum Oxide , Equipment Failure Analysis , Foreign-Body Reaction/pathology , Hip Prosthesis , Postoperative Complications/pathology , Titanium , Aged , Aged, 80 and over , Alloys , Female , Foreign-Body Reaction/surgery , Hip Joint/pathology , Humans , Male , Microscopy, Electron, Scanning , Necrosis , Postoperative Complications/surgery , Prosthesis Design , Prosthesis Failure , Reoperation
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