Abstract
Objective
To evaluate the wear of polyethylene in a Brazilian ultracongruent knee prosthesis with a rotating platform (Rotaflex, Víncula, Rio Claro, SP, Brasil).
Methods
We used the test method with the loading and preparation parameters mentioned in the standards regulation ISO 14243-1:2009, and the measurement methods mentioned in the standards regulation ISO 14243-2:2009, for the evaluation of the wear behavior of a Brazilian prosthesis with a rotating platform. The equipment used for the wear test was the ISO 14243–1 gait simulator (EndoLab, Riedering, Germany).
Results
After 10 million cycles, the evaluation of the polyethylene wear showed a regular appearance of surface wear at a mean rate of 2.56 mg per million cycles.
Conclusion
The wear of the polyethylene of the evaluated prosthesis was minimal after the tests performed and with safety limits higher than those recommended by biomechanical engineering.
Keywords
arthroplasty, replacement, knee; knee prosthesis; prosthesis design; prosthesis failure
Resumo
Objetivo
Avaliar o desgaste do polietileno de uma prótese de joelho brasileira ultracongruente de base rotatória (Rotaflex, Víncula, Rio Claro, SP, Brasil).
Métodos
Utilizou-se o método de ensaio com os parâmetros de carregamento e preparação citados na norma ISO 14243-1:2009, e os métodos de medição citados na norma ISO 14243-2:2009, para a avaliação do comportamento de desgaste de uma prótese nacional com base rotatória. O equipamento utilizado para o teste de desgaste foi o simulador de marcha ISO 14243–1 (EndoLab, Riedering, Alemanha).
Resultados
Após 10 milhões de ciclos, a avaliação do desgaste do polietileno mostrou uma aparência regular do desgaste da superfície com taxa média de 2,56 mg por milhão de ciclos.
Conclusão
O desgaste do polietileno da prótese avaliada foi mínimo após os ensaios realizados e com os limites de segurança superiores aos preconizados pela engenharia biomecânica.
Palavras-chave
arthroplasty, replacement, knee; prótese do joelho; desenho de prótese; falha de prótese
Introduction
The aging of the population and the higher prevalence of patients with osteoarthritis has increased the frequency of indications for total knee arthroplasty (TKA).11 Jämsen E, Jäntti P, Puolakka T, Eskelinen A. Primary knee replacement for primary osteoarthritis in the aged: gender differences in epidemiology and preoperative clinical state. Aging Clin Exp Res 2012;24(06):691-69822 Hernandez AJ, Camanho GL, Pécora JR. Artrodese do joelho: gênese e soluções. São Paulo: Atheneu; 2010 Total knee arthroplasty can be defined as a highly-complex surgical procedure for the treatment of arthrosis that is capable of demonstrating satisfactory and long-lasting data on the improvement in pain, quality of life and patient functional outcomes, as well as in the correction of deformities and instabilities with origins related to degenerative processes that compromise the knee joint.33 Ferreira MC, Oliveira JCP, Zidan FF, Franciozi CEDS, Luzo MVM, Abdalla RJ. Total knee and hip arthroplasty: the reality of assistance in Brazilianpublic health care. Rev Bras Ortop 2018;53(04):432-440 This procedure has excellent postoperative results in relation to implant survival, with rates higher than 95% in at least 10 years of follow-up.44 McLaughlin JR, Lee KR. Hybrid total knee arthroplasty: 10- to 16-year follow-up. Orthopedics 2014;37(11):e975-e977
Polyethylene wear can produce debris that influences the release of prosthetic components. Total knee arthroplasty with a rotating platform has theoretical biomechanical advantages over a fixed-platform design.55 Tirico LEP, Pasqualin T, Pécora JO, Gobbi RG, Pécora JR, Demange MK. Estudo da estabilidade dos componentes na artroplastia total do joelho sem cimento. Acta Ortop Bras 2012;20(04):230-234 These advantages include an improvement in kinematics by increasing the range of motion, facilitating axial rotation, better distribution of stress between the femoral and tibial components, and reduction in release forces at the implant interface with the bone.66 Kim YH, Park JW, Kim JS, Kulkarni SS, Kim YH. Long-term clinical outcomes and survivorship of press-fit condylar sigma fixedbearing and mobile-bearing total knee prostheses in the same patients. J Bone Joint Surg Am 2014;96(19):e16877 Fransen BL, van Duijvenbode DC, Hoozemans MJM, Burger BJ. No differences between fixed- and mobile-bearing total knee arthroplasty. Knee Surg Sports TraumatolArthrosc 2017;25(06):1757-177788 CobraH, Palma IM. Polietileno tibial móvel na artroplastia total do joelho. Rev Bras Ortop 2009;44(06):475-478 Many variables can influence the frictional wear behavior of polyethylene, like the design of the prosthesis, the raw material used, and the surgical technique applied and the patient's morbidities, such as the activity level and body mass. The objective of the present study was to evaluate the wear of polyethylene of a Brazilian ultracongruent knee prosthesis with a rotating platform (Rotaflex, Víncula, São Paulo, SP, Brasil).
Materials and Methods
We used the test method with the standard parameters for loading and preparation listed in the norm ISO 14243-1:2009–Implants for Surgery – Wear of Total Knee Joint Prostheses – Part 1: Loading and Displacement Parameters for Wear Testing Machines with Load Control and Corresponding Environmental Conditions for Tests (Accredited), and the measurement methods mentioned in the norm ISO 14243–2:2009 Implants for Surgery – Wear of Total Knee Joint Prostheses – Part 2: Methods of Measurement (Accredited). For the evaluation of the wear behavior, the Rotaflex prosthesis was used.99 ISO 14243-1:2009 Implants for surgery -Wear of total knee-joint prostheses-Part 1: Loading and displacement parameters for wear-testing machines with load control and corresponding environmental conditions for test. Disponível em: https://www.iso.org/standard/44262.html
https://www.iso.org/standard/44262.html...
1010 ISO 14243-2:2009 Implants for surgery-Wear of total knee-joint prostheses-Part 2: Methods of measurement. Disponível em: https://www.iso.org/standard/44263.html
https://www.iso.org/standard/44263.html...
In total, 3 simultaneous tests were performed in the ISO 14243–1 knee joint gait simulator (EndoLab, Riedering, Germany) in 5 systems, totaling 15 components (Figures 1 and 2).
In the simulations, the implant was attached to the extension device. A cyclical flexion-extension variation from 0º to 58º was applied (Table 1). An axial force ranging from 168 N to 2,600 N was also applied, depending on the degree of flexion, simulating a normal human walk (Table 1). The tibial base was free to accommodate to the femoral component under the influence of applied contact forces, with this movement having all degrees of freedom, except the flexion-extension angle, which followed the specified cyclic variation. With this simulation, the applied contact force actions were: axial force, anteroposterior (AP) force, and tibial rotation torque. The femoral and tibial metal components, as well as the polyethylene, were immersed in a fluid medium simulating human synovial fluid throughout the test, which was carried out in a controlled environment, simulating the physiological conditions.
The wear assessment followed the ISO 14243–2:2009 norms, with 10 million cycles and measurements taken at every millionth cycle. In accordance with the aforementioned norms, the wear was assessed by analyzing the loss of mass.
Results
After 10 million cycles, the qualitative analysis of the polyethylene surface showed an appearance of regular wear, with polished and matte areas (Figure 2). This regular wear pattern indicates an intrinsic stability of the prosthetic components (Figure 3).
The quantitative result of mass wear for every millionth cycle is found in Table 1. Figure 3 expresses the results mentioned in Table 2.
The mean wear rate was 2.56 mg per millionth cycle, which was determined after 10 million cycles (Figure 1).
Discussion
Total knee arthroplasty aims to promote pain relief and improve function in a lasting way. However, surgery can fail for a number of reasons, such as loosening of the components, infection, instability, and persistent pain, for example.1111 Guglielmetti LG, Couto RC, Camargo OP, et al. Artroplastia total do joelho com o apoio tibial móvel. Avaliação dos resultados a médio prazo. Acta Ortop Bras 2010;18(06):310-314 In order to reduce the wear of the polyethylene and consequently the production of debris, a tibial component with a rotating platform was created, in which the polyethylene can move rotationally over the tibial component, hypothetically reducing its friction and wear.66 Kim YH, Park JW, Kim JS, Kulkarni SS, Kim YH. Long-term clinical outcomes and survivorship of press-fit condylar sigma fixedbearing and mobile-bearing total knee prostheses in the same patients. J Bone Joint Surg Am 2014;96(19):e16877 Fransen BL, van Duijvenbode DC, Hoozemans MJM, Burger BJ. No differences between fixed- and mobile-bearing total knee arthroplasty. Knee Surg Sports TraumatolArthrosc 2017;25(06):1757-17771212 Jorgensen NB,McAuliffe M, Orschulok T, LorimerMF, de Steiger R. Major Aseptic Revision Following Total Knee Replacement: A Study of 478,081 Total Knee Replacements from the Australian Orthopaedic Association National Joint Replacement Registry. J Bone Joint Surg Am 2019;101(04):302-310
In a study,1111 Guglielmetti LG, Couto RC, Camargo OP, et al. Artroplastia total do joelho com o apoio tibial móvel. Avaliação dos resultados a médio prazo. Acta Ortop Bras 2010;18(06):310-314 the authors state that prostheses with ultracongruent rotational support have the advantage of standardizing the contact pressures between components, thus reducing the formation of polyethylene particles and, consequently, osteolysis, in addition to the better adaptation of the extensor mechanism to possible imperfections in the rotational positioning of the tibial component.1111 Guglielmetti LG, Couto RC, Camargo OP, et al. Artroplastia total do joelho com o apoio tibial móvel. Avaliação dos resultados a médio prazo. Acta Ortop Bras 2010;18(06):310-314 An in-vivo video-fluoroscopic study, followed by three-dimensional reconstruction of the images obtained, comparing prostheses with fixed and mobile bases, with the same origin and design, showed that the femorotibial contact surface is twice as large in prostheses with rotational support when compared to those with fixed support.1313 Ranawat CS, Flynn WF Jr, Saddler S, Hansraj KK, Maynard MJ. Long-term results of the total condylar knee arthroplasty. A 15-year survivorship study. Clin Orthop Relat Res 1993;(286):94-102 In this study, the authors noted that the good results were similar in both models, but, both objectively and subjectively, the mobile platform was judged to be the closest to the normal knee.1313 Ranawat CS, Flynn WF Jr, Saddler S, Hansraj KK, Maynard MJ. Long-term results of the total condylar knee arthroplasty. A 15-year survivorship study. Clin Orthop Relat Res 1993;(286):94-102
The high durability of prostheses with a rotating polyethylene component is well elucidated in the literature, and the prostheses can last for more than 20 years in 97.7% of cases.1414 McEwenHM,McNulty DE, Auger DD , et al.Wearanalysis of mobile bearing knee. In: Hamelynck KJ, Stiehl JB, editors. LCS mobile bearing knee arthroplasty: a 25 years worldwide review. Heidelberg, Germany: Springer Verlag; 2002:67-73
Schmidt et al1515 Scmidt R, Jinnah R, Green J, Moseley J, Brownhill J. In vitro assessment of a cruciate retaining and cruciate sacrificing medially pivoting knee replacement. In: Annual Meeting of the Orthopaedic Research Society 2011, Long Beach, CA, 2011. (Poster nº 1150. ORS 2011). studied the wear rate of polyethylene in different models of prostheses already commercialized and established in the market, and they found values of volumetric wear that ranged from 1.9 mg/mc to 14.6 mg/mc. In the present study, the result obtained of 2.67 mg/mc of volumetric wear after 10 million test cycles, compared to the values found by Schmidt et al,1515 Scmidt R, Jinnah R, Green J, Moseley J, Brownhill J. In vitro assessment of a cruciate retaining and cruciate sacrificing medially pivoting knee replacement. In: Annual Meeting of the Orthopaedic Research Society 2011, Long Beach, CA, 2011. (Poster nº 1150. ORS 2011). demonstrated that the Rotaflex system approaches the lowest rate found (1.9 mg/mc). In addition, the 2.67 mg/mc of wear of the polyethylene component measured in this Brazilian prosthesis obtained a wear resistance performance 5.47 times higher than the maximum published values.
Conclusion
The wear of the polyethylene of the evaluated prosthesis was minimal after the tests performed with safety limits higher than those recommended by biomechanical engineering.
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*
Work developed at the Knee Group, Department of Orthopedics and Traumatology, Hospital das Clínicas, Faculdade de Medicina, Universidade de São Paulo (HCFMUSP), São Paulo, SP, Brazil, and at Faculdade de Medicina, Universidade de Campinas, Campinas, SP, Brazil.
References0042
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1Jämsen E, Jäntti P, Puolakka T, Eskelinen A. Primary knee replacement for primary osteoarthritis in the aged: gender differences in epidemiology and preoperative clinical state. Aging Clin Exp Res 2012;24(06):691-698
-
2Hernandez AJ, Camanho GL, Pécora JR. Artrodese do joelho: gênese e soluções. São Paulo: Atheneu; 2010
-
3Ferreira MC, Oliveira JCP, Zidan FF, Franciozi CEDS, Luzo MVM, Abdalla RJ. Total knee and hip arthroplasty: the reality of assistance in Brazilianpublic health care. Rev Bras Ortop 2018;53(04):432-440
-
4McLaughlin JR, Lee KR. Hybrid total knee arthroplasty: 10- to 16-year follow-up. Orthopedics 2014;37(11):e975-e977
-
5Tirico LEP, Pasqualin T, Pécora JO, Gobbi RG, Pécora JR, Demange MK. Estudo da estabilidade dos componentes na artroplastia total do joelho sem cimento. Acta Ortop Bras 2012;20(04):230-234
-
6Kim YH, Park JW, Kim JS, Kulkarni SS, Kim YH. Long-term clinical outcomes and survivorship of press-fit condylar sigma fixedbearing and mobile-bearing total knee prostheses in the same patients. J Bone Joint Surg Am 2014;96(19):e168
-
7Fransen BL, van Duijvenbode DC, Hoozemans MJM, Burger BJ. No differences between fixed- and mobile-bearing total knee arthroplasty. Knee Surg Sports TraumatolArthrosc 2017;25(06):1757-1777
-
8CobraH, Palma IM. Polietileno tibial móvel na artroplastia total do joelho. Rev Bras Ortop 2009;44(06):475-478
-
9ISO 14243-1:2009 Implants for surgery -Wear of total knee-joint prostheses-Part 1: Loading and displacement parameters for wear-testing machines with load control and corresponding environmental conditions for test. Disponível em: https://www.iso.org/standard/44262.html
» https://www.iso.org/standard/44262.html -
10ISO 14243-2:2009 Implants for surgery-Wear of total knee-joint prostheses-Part 2: Methods of measurement. Disponível em: https://www.iso.org/standard/44263.html
» https://www.iso.org/standard/44263.html -
11Guglielmetti LG, Couto RC, Camargo OP, et al. Artroplastia total do joelho com o apoio tibial móvel. Avaliação dos resultados a médio prazo. Acta Ortop Bras 2010;18(06):310-314
-
12Jorgensen NB,McAuliffe M, Orschulok T, LorimerMF, de Steiger R. Major Aseptic Revision Following Total Knee Replacement: A Study of 478,081 Total Knee Replacements from the Australian Orthopaedic Association National Joint Replacement Registry. J Bone Joint Surg Am 2019;101(04):302-310
-
13Ranawat CS, Flynn WF Jr, Saddler S, Hansraj KK, Maynard MJ. Long-term results of the total condylar knee arthroplasty. A 15-year survivorship study. Clin Orthop Relat Res 1993;(286):94-102
-
14McEwenHM,McNulty DE, Auger DD , et al.Wearanalysis of mobile bearing knee. In: Hamelynck KJ, Stiehl JB, editors. LCS mobile bearing knee arthroplasty: a 25 years worldwide review. Heidelberg, Germany: Springer Verlag; 2002:67-73
-
15Scmidt R, Jinnah R, Green J, Moseley J, Brownhill J. In vitro assessment of a cruciate retaining and cruciate sacrificing medially pivoting knee replacement. In: Annual Meeting of the Orthopaedic Research Society 2011, Long Beach, CA, 2011. (Poster nº 1150. ORS 2011).
Publication Dates
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Publication in this collection
05 Apr 2021 -
Date of issue
Jan-Feb 2021
History
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Received
04 Feb 2020 -
Accepted
02 Mar 2020