Wear testing of materials and surfaces for total knee replacement

Walker, Peter S.; Blunn, Gordon; Lilley, Peter A.

doi:10.1002/(sici)1097-4636(199623)33:3<159::aid-jbm6>3.0.co;2-p

Cited by 112 publications

(47 citation statements)

References 26 publications

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“…This is typical of polymers like polyethylene with a smooth molecular profile and the lack of side groups and kinks in the chain [4,5]. The formation of the transfer layer depends on the environment and is more severe when tested in water, compared with serum, but it has even been found on retrieved implants [6]. In the depth the mechanisms fatigue mechanisms occur.…”

Section: Introductionmentioning

confidence: 99%

Molecular Deformation Mechanisms in UHMWPE During Tribological Loading in Artificial Joints

Galetz

Glatzel

2010

Tribol Lett

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No clear picture of the deformation and wear mechanisms of Ultra High Molecular Weight Polyethylene (UHMWPE) in artificial knee joints exists up to today. Tribological tests were conducted under relevant loads and the worn samples were extensively studied by XRD, DSC, Raman, and SEM. It was shown that stresses close to the surface in areas where high relative velocity in combination with high normal loads are applied are most effective in changing the microstructure and therefore most detrimental to produce wear particles, while in the depth the same deformed structure as under unidirectional cyclic loading is found. A model was proposed which reflects the deformation at different zones in the depth of a tribologically loaded UHMWPE sample. This model shows amazing analogy to the orientation of collagen fibrils in natural cartilage.

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Section: Introductionmentioning

confidence: 99%

Molecular Deformation Mechanisms in UHMWPE During Tribological Loading in Artificial Joints

Galetz

Glatzel

2010

Tribol Lett

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“…[18][19][20] Cyclic anterioposterior translation of the contact point between the femoral and tibial components may result in structural failure (severe surface and subsurface cracking), leading to delamination. 21,22 It has been shown using the standard uniaxial tension test that mechanical properties of UHMWPE such as ductility and toughness decrease with increased radiation doses. 23,24 Therefore, concerns exist about the application of crosslinked UHMWPE to the tibial insert because crosslinking may result in significant deterioration in mechanical properties, such as ductility, toughness, and fatigue resistance, causing delamination wear or breakage of the tibial insert.…”

Section: Introductionmentioning

confidence: 99%

Wear and toughness of crosslinked polyethylene for total knee replacements: A study using a simulator and small‐punch testing

Akagi

Asano

Clarke

et al. 2006

Journal Orthopaedic Research

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Severe loading and complex kinematics in total knee replacement make wear performance and toughness of the polyethylene in tibial inserts important. We investigated wear of crosslinked polyethylene using a knee simulator and measured toughness using small-punch testing. GUR1050 rods were gamma-irradiated in air at doses from 0 to 200 kGy, annealed in nitrogen, and machined into tibial inserts. The simulator was run to 4 million cycles, and wear rates determined from weight loss. Wear rate decreased by 54, 78, and 95% as radiation dose increased from 50 to 75 to 100 kGy, respectively. At every dose, toughness was significantly less after simulator testing, but the difference between control and wear-tested polyethylene, considered to be due to fatigue damage accumulation, was smallest at 50 kGy. The simulator-tested polyethylene that received 35 to 75 kGy had slightly higher toughness than equivalent material that received no irradiation. However, the toughness of simulator-tested polyethylene that received 150 and 200 kGy was lower than that of the simulator-tested polyethylene that received no irradiation. Our results suggest that an optimal irradiation dose may exist for crosslinked polyethylene for use in TKR and that the optimum dose would be less than the 100 kGy or more that are used in some current crosslinked polyethylene for hip replacement. ß

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“…While total hip arthroplasty has a long history of ceramic prosthesis, TKA has not been considered good for the application of ceramic components due to the concern over their mechanical properties [12,13,19,26]. Recently a great deal of attention has been paid to the ceramic femoral component which is claimed to be advantageous over traditional cobalt-chrome component in longevity [12,13,19,27]. Our findings indicate that the claimed advantage of better longevity would be very appealing to patients as well.…”

Section: Additional Skin Incision-1 (2%)mentioning

confidence: 99%

Patients’ perspective on controversial issues in total knee arthroplasty

Kim

Choi

Shin

et al. 2007

Knee Surg Sports Traumatol Arthr

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We investigated the level of patient knowledge and preferences over the currently controversial issues in TKA. One hundred patients who had decided to undergo TKA for advanced osteoarthritis were asked to complete a questionnaire inquiring their knowledge and preferences over three controversial issues: (1) computer assisted surgery (CAS), (2) minimal invasive surgery (MIS), and (3) ceramic femoral component. The patient preferences over the three issues were questioned again after they had been informed of advantages and disadvantages of each option using an explanatory document. Most (more than 75%) of the patients did not have sufficient knowledge and their knowledge was based on non-professional sources (more than 85%). Before the information was given, most (more than 80%) of the patients preferred a new option. After the information was provided, more patients preferred a standard option in the issues of CAS (60%) and MIS (88%). This study prompts health care providers to become more active in providing accurate information and to consider patients perspective in making decisions which will influence the benefits and risk of the patients.

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Wear testing of materials and surfaces for total knee replacement

Cited by 112 publications

References 26 publications

Molecular Deformation Mechanisms in UHMWPE During Tribological Loading in Artificial Joints

Molecular Deformation Mechanisms in UHMWPE During Tribological Loading in Artificial Joints

Wear and toughness of crosslinked polyethylene for total knee replacements: A study using a simulator and small‐punch testing

Patients’ perspective on controversial issues in total knee arthroplasty

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