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  • Author: Rob G.H.H. Nelissen x
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Mattia Loppini Department of Biomedical Sciences, Humanitas University, Pieve Emanuele, Milan, Italy
IRCCS Humanitas Research Hospital, Rozzano, Milan, Italy
Fondazione Livio Sciutto Onlus, Campus Savona – Università degli Studi di Genova, Savona, Italy

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Francesco Manlio Gambaro Department of Biomedical Sciences, Humanitas University, Pieve Emanuele, Milan, Italy

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Rob G H H Nelissen Landelijke Registratie Orthopedische Implantaten (Dutch Arthroplasty Register), ’s Hertogenbosch, The Netherlands
Department of Orthopaedics, Leiden University Medical Center, Leiden, The Netherlands

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Guido Grappiolo IRCCS Humanitas Research Hospital, Rozzano, Milan, Italy
Fondazione Livio Sciutto Onlus, Campus Savona – Università degli Studi di Genova, Savona, Italy

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  • The study investigated the existing guidelines on the quality and frequency of the follow-up visits after total hip replacement surgery and assessed the level of evidence of these recommendations.

  • The review process was carried out according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. Additional works were retrieved by direct investigation of the available guidelines of the most important orthopedic societies and regulatory agencies.

  • The current systematic review of the literature resulted in zero original papers, four guidelines for routine follow-up and three guidelines for special cases. Concerning the quality of evidence behind them, these guidelines were not evidence based but drafted from expert consensus.

  • The most important finding of this review is the large variation of recommendations in the follow-up schedule after total hip arthroplasty and the lack of evidence-based indications. Indeed, all the above-reported guidelines are the result of a consensus among experts in the field (level of recommendation class D ‘very low’) and not based on clinical studies.

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Alan G. Fraser Department of Cardiology, University Hospital of Wales, Cardiff, UK

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Rob G.H.H. Nelissen Department of Orthopaedics, Leiden University Medical Center, Leiden, Netherlands

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Per Kjærsgaard-Andersen Department of Orthopaedics, Vejle Hospital, South Danish University, Vejle, Denmark

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Piotr Szymański Centre of Postgraduate Medical Education, MSWiA Central Clinical Hospital, Warsaw, Poland

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Tom Melvin Healthcare Products Regulatory Authority, Earlsfort Terrace, Dublin 2, Ireland

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Paul Piscoi Health Technology Unit B6, Directorate General for Health (DG SANTE), European Commission, Brussels, Belgium

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On behalf of the CORE–MD Investigators (see Appendix) Alan Fraser, Piotr Szymański, Chris Gale, Aldo Maggioni, Elisabetta Zanon, Christina Dimopoulou, Cinzia Ceccarelli, Polyxeni Vairami, Anett Ruszanov, Per Kjærsgaard-Andersen, Rob Nelissen, Adrian Ott, Elizabeth Macintyre, Loredana Simulescu, Marieke Meijer, Berthold Koletzko, Sarah Wieczorek, Adamos Hadjipanayis, Stefano Del Torso, Perla Marang-van de Mheen, Lotje Hoogervorst, Ewout W. Steyerberg, Bas Penning De Vries, Peter McCulloch, Martin Landray, Daniel Prieto Alhambra, James Smith, Anne Lubbeke-Wolf, Stefan James, Sergio Buccheri, Robert Byrne, Laurna McGovern, Stephan Windecker, Andre Frenk, Georgios Siontis, Christoph Stettler, Arjola Bano, Lia Bally, Frank E. Rademakers, Jan D‘hooge, Anton Vedder, Elisabetta Biasin, Erik Kamenjasevic, Petra Schnell-Inderst, Felicitas Kühne, Ola Rolfson, Joel Jakobsson, Amanda Tornsö, Enrico G. Caiani, Lorenzo Gianquintieri, Cinzia Cappiello, Maristella Matera, Tom Melvin, Niall MacAleenan, Ria Mahon, Michèle Meagher, Gearóid McGauran, Thomas Wejs Møller, Ann-Sofie Sonne Holm-Schou, Jan Szulc, Robert E. Geertsma, Jantine W.P.M. van Baal, Joëlle M. Hoebert, Susana L.F. Cabaço, Paola Laricchiuta, Marina Torre, Filippo Boniforti, Eugenio Carrani, Stefania Ceccarelli, Claudia Wild, Sabine Ettinger, Juan Antonio Blasco Amaro, Juan Carlos Rejón Parrilla, Agnieszka Dobrzynska, David Epstein, Valentina Strammiello, Hannes Jarke, Kaisa Immonen, Françoise Schlemmer, Sabina Hoekstra, Marianna Mastroroberto, Christoph Ziskoven, Michael Hahn, Erman Melikyan, Richard Holborow, Suzanne Halliday, Alexey Shiryaev, Gero Viola, Harry van Vugt

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In the European Union (EU), the delivery of health services is a national responsibility but there are concerted actions between member states to protect public health. Approval of pharmaceutical products is the responsibility of the European Medicines Agency, while authorising the placing on the market of medical devices is decentralised to independent ‘conformity assessment’ organisations called notified bodies. The first legal basis for an EU system of evaluating medical devices and approving their market access was the Medical Device Directive, from the 1990s. Uncertainties about clinical evidence requirements, among other reasons, led to the EU Medical Device Regulation (2017/745) that has applied since May 2021. It provides general principles for clinical investigations but few methodological details – which challenges responsible authorities to set appropriate balances between regulation and innovation, pre- and post-market studies, and clinical trials and real-world evidence. Scientific experts should advise on methods and standards for assessing and approving new high-risk devices, and safety, efficacy, and transparency of evidence should be paramount. The European Commission recently awarded a Horizon 2020 grant to a consortium led by the European Society of Cardiology and the European Federation of National Associations of Orthopaedics and Traumatology, that will review methodologies of clinical investigations, advise on study designs, and develop recommendations for aggregating clinical data from registries and other real-world sources. The CORE–MD project (Coordinating Research and Evidence for Medical Devices) will run until March 2024. Here, we describe how it may contribute to the development of regulatory science in Europe.

Cite this article: EFORT Open Rev 2021;6:839-849. DOI: 10.1302/2058-5241.6.210081

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Shaho Hasan Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands

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Peter van Schie Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands
Department of Biomedical Data Sciences, Leiden University Medical Centre, Leiden, The Netherlands

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Bart L Kaptein Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands

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Jan W Schoones Walaeus Library, Leiden University Medical Centre, Leiden, The Netherlands

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Perla J Marang-van de Mheen Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands
Department of Safety & Security Science, Delft University of Technology, Delft, The Netherlands

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Rob G H H Nelissen Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands

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Background

  • Loosening is a major cause for failure of total hip and total knee arthroplasties (THAs/TKAs). Preemptive diagnostics of asymptomatic loosening could open strategies to prevent gross loosening. A multitude of biomarkers may discriminate between loosened and stable implants, but it is unknown which have the best performance. The present systematic review aimed to assess which biomarkers have shown the most promising results in discriminating between stable and aseptic loosened THAs and TKAs.

Methods

  • PubMed, Embase, Web of Science, Cochrane Library, and Academic Search Premier were systematically searched up to January 2020 for studies including THA/TKA and biomarkers to assess loosening. Two reviewers independently screened records, extracted data, and assessed the risk of bias using the ICROMS tool to classify the quality of the studies.

Results

  • Twenty-eight (three high-quality) studies were included, reporting on a median of 48 patients (interquartile range 28–69). Serum and urine markers were evaluated in 22 and 10 studies, respectively. Tumor necrosis factor α and osteocalcin were significantly higher in loosened compared with stable implants. Urinary N-terminal telopeptide had significantly elevated levels in loosened prostheses.

Conclusion

  • Several serum and urine markers were promising in discriminating between loosened and stable implants. We recommend future studies to evaluate these biomarkers in a longitudinal fashion to assess whether progression of loosening is associated with a change in these biomarkers. In particular, high-quality studies assessing the usability of these biomarkers are needed.

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Keith Tucker Orthopaedic Data Evaluation Panel (ODEP), Norwich, UK

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Klaus-Peter Günther University Centre of Orthopedics, Trauma and Plastic Surgery, University Hospital Carl Gustav Carus Dresden, Technische Universität Dresden, Germany

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Per Kjaersgaard-Andersen Department of Orthopaedics, Vejle Hospital, South Danish University, Vejle, Denmark

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Jörg Lützner University Centre of Orthopedics, Trauma and Plastic Surgery, University Hospital Carl Gustav Carus Dresden, Technische Universität Dresden, Germany

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Jan Philippe Kretzer Laboratory of Biomechanics and Implant Research, Clinic for Orthopedics and Trauma Surgery, Heidelberg University Hospital, Heidelberg, Germany

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Rob G.H.H. Nelissen Department of Orthopaedics, Leiden University Medical Center, Leiden, Netherlands

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Toni Lange Center for Evidence-based Healthcare, University Hospital Carl Gustav Carus and Faculty of Medicine Carl Gustav Carus, Technische Universität Dresden, Germany

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Luigi Zagra IRCCS Istituto Ortopedico Galeazzi, Hip Department, Milan, Italy

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  • Off-label use is frequently practiced in primary and revision arthroplasty, as there may be indications for the application of implants for purposes outside the one the manufacturers intended.

  • Under certain circumstances, patients may benefit from selective application of mix & match. This can refer to primary hip arthroplasty (if evidence suggests that the combination of devices from different manufacturers has superior results) and revision hip or knee arthroplasty (when the exchange of one component only is necessary and the invasiveness of surgery can be reduced).

  • Within the EFORT ‘Implant and Patient Safety Initiative’, evidence- and consensus-based recommendations have been developed for the safe application of off-label use and mix & match in primary as well as revision hip and knee arthroplasty.

  • Prior to the application of a medical device for hip or knee arthroplasty off-label and within a mix & match situation, surgeons should balance the risks and benefits to the patient, obtain informed consent, and document the decision process appropriately.

  • Nevertheless, it is crucial for surgeons to only combine implants that are compatible. Mismatch of components, where their sizes or connections do not fit, may have catastrophic effects and is a surgical mistake.

  • Surgeons must be fully aware of the features of the components that they use in off-label indications or during mix & match applications, must be appropriately trained and must audit their results.

  • Considering the frequent practice of off-label and mix & match as well as the potential medico-legal issues, further research is necessary to obtain more data about the appropriate indications and outcomes for those procedures.

Cite this article: EFORT Open Rev 2021;6:982-1005. DOI: 10.1302/2058-5241.6.210080

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Peter van Schie Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands
Department of Biomedical Data Sciences, Medical Decision Making, Leiden University Medical Centre, Leiden, The Netherlands

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Shaho Hasan Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands

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Leti van Bodegom-Vos Department of Biomedical Data Sciences, Medical Decision Making, Leiden University Medical Centre, Leiden, The Netherlands

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Jan W Schoones Walaeus Library, Leiden University Medical Centre, Leiden, The Netherlands

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Rob G H H Nelissen Department of Orthopaedics, Leiden University Medical Centre, Leiden, The Netherlands

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Perla J Marang-van de Mheen Department of Biomedical Data Sciences, Medical Decision Making, Leiden University Medical Centre, Leiden, The Netherlands

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  • In order to improve care for total hip and knee arthroplasties (THA/TKA), hospitals may want to compare their performance with hospitals in other countries. Pooling data across countries also enable early detection of infrequently occurring safety issues. We therefore aimed to assess the between-hospital variation and definitions used for revision, readmission, and complications across countries.

  • PubMed, Embase, Web of Science, Cochrane library, Emcare, and Academic Search Premier were searched from January 2009 to August 2020 for studies reporting on: (i) primary THA/TKA; (ii) revision, readmission, or complications; and (iii) between-hospital variation. Most recent registry reports of Network of Orthopedic Registries of Europe members were also reviewed. Two reviewers independently screened records, extracted data, and assessed the risk of bias using the Integrated quality Criteria for the Review Of Multiple Study designs tool for studies and relevant domains for registries. We assessed agreement for the following domains: (i) outcome definition; (ii) follow-up and starting point; (iii) case-mix adjustment; and (iv) type of patients and hospitals included.

  • Between-hospital variation was reported in 33 (1 high-quality, 13 moderate-quality, and 19 low-quality) studies and 8 registry reports. The range of variation for revision was 0–33% for THA and 0–27% for TKA varying between assessment within hospital admission until 10 years of follow-up; for readmission, 0–40% and 0–32% for THA and TKA, respectively; and for complications, 0–75% and 0–50% for THA and TKA, respectively. Indicator definitions and methodological variables varied considerably across domains.

  • The large heterogeneity in definitions and methods used likely explains the considerable variation in between-hospital variation reported for revision, readmission, and complications , making it impossible to benchmark hospitals across countries or pool data for earlier detection of safety issues. It is necessary to collaborate internationally and strive for more uniformity in indicator definitions and methods in order to achieve reliable international benchmarking in the future.

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Geke A. W. Denissen Landelijke Registratie Orthopedische Implantaten (Dutch Arthroplasty Register), ’s Hertogenbosch, The Netherlands

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Liza N. van Steenbergen Landelijke Registratie Orthopedische Implantaten (Dutch Arthroplasty Register), ’s Hertogenbosch, The Netherlands

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Wouter T. Lollinga Landelijke Registratie Orthopedische Implantaten (Dutch Arthroplasty Register), ’s Hertogenbosch, The Netherlands

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Nico J. J. Verdonschot Dept. of Biomechanics, Radboud University Medical Center, Nijmegen, The Netherlands
Department of Biomechanical Engineering, University of Twente, Enschede, The Netherlands

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Berend W. Schreurs Landelijke Registratie Orthopedische Implantaten (Dutch Arthroplasty Register), ’s Hertogenbosch, The Netherlands
Dept. of Orthopaedics, Radboud University Medical Center, Nijmegen, The Netherlands

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Rob G. H. H. Nelissen Landelijke Registratie Orthopedische Implantaten (Dutch Arthroplasty Register), ’s Hertogenbosch, The Netherlands
Dept. of Orthopaedics, Leiden University Medical Center, Leiden, The Netherlands

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  • In the Dutch Arthroplasty Register (LROI), the product and batch number of prosthetic components and cement are registered for traceability. Registration of the product number provides opportunities to extend the information about a specific prosthesis. All product numbers used from the beginning of the registration in 2007 were characterized to develop and maintain an implant library.

  • The Scientific Advisory Board developed a core-set that contains the most important characteristics needed to form an implant library. The final core-set contains the brand name, type, coating and material of the prosthesis. In total, 35 676 product numbers were classified, resulting in a complete implant library of all product numbers used in the LROI.

  • To improve quality of the data and increase convenience of registration, the LROI implemented barcode scanning for data entry into the database. In 2017, 82% of prosthetic components and cement stickers had a GS1 barcode. The remaining product stickers used HIBCC barcodes and custom-made barcodes.

  • With this implant library, implants can be grouped for analyses at group level, e.g. evaluation of the effect of a material of a prosthesis on survival of the implant. Apart from that, the implant library can be used for data quality control within the LROI database.

  • The implant library reduces the registration burden and increases accuracy of the database. Such a system will facilitate new designs (learning from the past) and thus improve implant quality and ultimately patient safety.

Cite this article: EFORT Open Rev 2019;4 DOI: 10.1302/2058-5241.4.180063

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Bart G. Pijls Department of Orthopaedics, Leiden University Medical Center, Leiden, The Netherlands

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Jennifer M. T. A. Meessen Department of Orthopaedics, Leiden University Medical Center, Leiden, The Netherlands

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Keith Tucker Implant Performance Committee, England and Wales National Joint Registry, ODEP, Beyond Compliance and MHRA Expert Advisory Group for MoM Prostheses, London, UK

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Susanna Stea Istituto Ortopedico Rizzoli, Bologna, Italy

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Liza Steenbergen Dutch Arthroplasty Register (Landelijke Registratie Orthopedische Implantaten, LROI), 's- Hertogenbosch, The Netherlands

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Anne Marie Fenstad The Norwegian Arthroplasty Register, Department of Orthopaedic Surgery, Haukeland University Hospital, Bergen, Norway

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Keijo Mäkelä Department of Orthopedics and Traumatology, Turku University Hospital, Turku, Finland

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Ioan Cristian Stoica Foisor Orthopaedics Clinical Hospital, Bucharest, Romania

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Maxim Goncharov VJRR, Russian Scientific Research Institute of Traumatology and Orthopedics, St Petersburg, Russia

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Søren Overgaard Department of Orthopedic Surgery and Traumatology, Odense University Hospital, Odense, Denmark

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Jorge Arias de la Torre Departament de Salut, Agència de Qualitat i Avaluació Sanitàries de Catalunya (AQuAS), Barcelona, Spain
CIBER Epidemiología y Salud Pública (CIBERESP), Madrid, Spain
Instituto de Biomedicina (IBIOMED). Universidad de León, León, Spain

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Anne Lübbeke Division of Orthopaedic Surgery and Traumatology, Geneva University Hospitals, Geneva, Switzerland
Nuffield Department of Orthopaedics, Rheumatology and Musculoskeletal Sciences, University of Oxford, Oxford, UK

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Ola Rolfson Department of Orthopaedics, Institute of Clinical Sciences, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden

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Rob G. H. H. Nelissen Department of Orthopaedics, Leiden University Medical Center, Leiden, The Netherlands

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  • The purpose of this paper is to determine the prevalence of metal-on-metal (MoM) total hip replacement (THR) in European registries, to assess the incidence of revision surgery and to describe the national follow-up guidelines for patients with MoM THR including resurfacings.

  • Eleven registries of the Network of Orthopaedic Registries of Europe (NORE) participated totalling 54 434 resurfacings and 58 498 large stemmed MoM THRs.

  • The resurfacings and stemmed large head MoM had higher pooled revision rates at five years than the standard total hip arthroplasties (THA): 6.0%, 95% confidence interval (CI) 5.3 to 6.8 for resurfacings; 6.9%, 95% CI 4.4 to 9.4 for stemmed large head MoM; and 3.0%, 95% CI 2.5 to 3.6 for conventional THA.

  • The resurfacings and stemmed large head MoM had higher pooled revision rates at ten years than the standard THAs: 12.1%, 95% CI 11.0 to 13.3 for resurfacings; 15.5%, 95% CI 9.0 to 22 for stemmed large head MoM; and 5.1%, 95% CI 3.8 to 6.4 for conventional THA.

  • Although every national registry reports slightly different protocols for follow-up, these mostly consist of annual assessments of cobalt and chromium levels in blood and MRI (MARS) imaging.

Cite this article: EFORT Open Rev 2019;4 DOI: 10.1302/2058-5241.4.180078

Open access