In Spain, the Health Ministry published a ministerial order (ORDER SCO/3603/2003 December 18th) in the Official State Bulletin of December 26, 2003 which regulated the creation of National Implant Registries, including hip and knee prostheses. The objective was to gather the information contained on implant files: patient identification, centres conducting the interventions, companies marketing the prostheses and descriptions of the components of the implanted prostheses. Despite this, the National Health System does not have a registry of implants and it is only through the initiative of scientific societies in various regions that arthroplasty registers are created (as in the cases of Andalusia, Canary Islands, Madrid and the Basque Country), with the support of their respective health authorities, although with varying degrees of success.1,2

These arthroplasty registries have emerged as a systematic method of obtaining information on the effectiveness and safety of prostheses after marketing.3,4 Such registries also enable a naturalistic approach whereby prostheses results are evaluated under normal use conditions, after implantation by orthopaedic surgeons with different levels of experience and in a variety of hospitals.3,5 In this sense, the registries have been able to identify problems with certain devices, such as the recent case of implants with metal–metal friction coupling.6 These problems had already been pointed out by the Norwegian registry based on the analysis of surface prostheses.7

The Swedish knee arthroplasty registry, created in the 1970s, was the first of its kind and since then several countries have implemented their own, although there are several differences regarding operation and the type of information gathered.8 This requires a consensus on methodological aspects and also with respect to identifying prostheses, in order to ensure that results are comparable.9,10 There are several initiatives which aim to reach a consensus on these aspects: the International Society of Arthroplasties Registries (www.isarhome.org), the International Consortium of Orthopaedic Registries,3 the European Arthroplasty Registry (www.ear.efort.org) and the Nordic Arthroplasty Registry Association.11

Based on the experiences obtained in other countries, in 2005 the Catalan Society of Orthopaedic Surgery and Traumatology (SCCOT), the Catalan Health Service (SCS) and the Agency for Health Information, Evaluation and Quality (AIAQS) signed a collaboration agreement with the intention of developing and implementing a registry of arthroplasties. The aim of this work is not only to present its operation, data quality and characteristics of the prostheses, but also its results in terms of survival for the period 2005–2010.

In 2005 AIAQS was instructed to develop and implement the Arthroplasty Registry of Catalonia (RACat). Its structure was defined by consensus between SCCOT, SCS and AIAQS, and a management committee in charge of overseeing the project was established. This included the Director/President of each institution, an Advisory Committee in charge of monitoring and evaluating project development and analysing relevant information, and a Council representing the collaborators of the registry at each participating centre. From the outset of the project it was decided that it would only include knee and hip prostheses, at least initially, and that the participation of each hospital would be voluntary. Hospitals began to send information towards the end of 2005.

At present, 52 hospitals in the public hospital network out of the 62 which perform hip and knee arthroplasties are sending information to RACat. This represents 80–85% of the activity taking place in Catalonia. For the period 2005–2010, RACat contains data regarding 36,951 knee arthroplasties (replacement ratio of 9.0%) and 26,477 hip arthroplasties (replacement ratio of 10.2%). Data quality (coverage, informed laterality and identified prosthesis) improved between 2005 and 2010. In the case of coverage, it increased from 24.4% to 78.3% in knee arthroplasties and from 21.0% to 71.6% in hip arthroplasties. Laterality also improved in both knee and hip replacements, going from 62.3% to 97.8% and from 60.0% to 99.4%, respectively. The percentage of identified prostheses also increased, going from 41.8% to 88.1% for knee arthroplasties and from 41.3% to 80.7% for hip arthroplasties. Patient characteristics are shown in Table 2.

Risk of replacement

The survival analysis of the prostheses included information on 29,890 knee arthroplasties out of a total 36,951 and on 16,841 hip arthroplasties out of the 26,477 available. The exclusion of these records was related to data quality (absence of laterality, replacement surgery without information on the primary arthroplasty or impossibility in identifying the prosthesis). The median follow-up of knee arthroplasties was 2.4 years (25% of patients were monitored for over 3.9 years and 25% for less than 1.1 years) and 2.0 years for hip arthroplasties (25% of patients were monitored for over 3.4 years and 25% for less than 0.9 years). The cumulative risk of knee arthroplasty replacement was 1.1% (95% CI: 1.0–1.3) at 1 year and 3.3% (95% CI: 3.1–3.6) at 3 years. In the case of total hip arthroplasties, the risk of replacement was 1.9% (95% CI: 1.7–2.2) at 1 year and 2.9% (95% CI: 2.5–3.3) at 3 years. For partial prostheses, this risk was 1.6% (95% CI: 1.3–2.0) at 1 year and 2.5% (95% CI: 2.0–3.1) at 3 years. Table 6 presents the risk of replacement of the most frequent types of prostheses.

Table 6.

Risk of replacement at 3 years of the most frequent types of prosthesis according to the fixation technique.

Type of prosthesis	Cemented		Hybrid		Non-cemented
	N (replacements)	Risk of replacement (95% CI)	N (replacements)	Risk of replacement (95% CI)	N (replacements)	Risk of replacement (95% CI)
Knee
Retains cruciate ligament	6634 (166)	3.7 (3.2–4.4)	3910 (65)	2.0 (1.5–2.6)	693 (11)	2.6 (1.4–4.7)
Posterior stabilised	9962 (267)	3.5 (3.1–4.0)	1314 (28)	4.7 (3.1–7.1)	289 (14)	6.7 (3.8–11.7)
Hip
Total conventional	1199 (33)	3.0 (2.1–4.2)	2736 (65)	2.8 (2.2–3.6)	6789 (159)	2.8 (2.3–3.3)

95% CI: 95% confidence interval.

Regarding the risk of replacement adjusted by age and gender according to the fixation technique, no differences were observed between cemented and uncemented prostheses in the case of primary knee arthroplasties (hazard ratio [HR]: 1.2; 95% CI: 0.8–1.8), whereas it was higher for cemented prostheses compared with hybrid ones (HR: 0.7; 95% CI: 0.5–0.8) (Fig. 1). In the case of hip prostheses, no differences were observed in the risk of replacement between the cemented and uncemented implants (HR: 0.7; 95% CI: 0.5–1.1) or between the cemented implants and hybrid ones (HR: 0.8; 95% CI: 0.5–1.2) (Fig. 2). The friction coupling in hip prostheses was not associated with an increased risk of replacement, with the cumulative risk varying between 1.2% (95% CI: 0.6–2.4) for metal–metal and 2.0% (95% CI: 1.7–2.3) for metal–polyethylene at 1 year, and 2.4% (95% CI: 1.5–3.7) for ceramic–polyethylene and 2.9% (95% CI: 2.5–3.3) for metal–polyethylene at 3 years.

Figure 1.

Risk of replacement of knee prostheses according to fixation technique.

(0.09MB).

Figure 2.

Risk of replacement of hip prostheses according to fixation technique.

(0.09MB).

RACat facilitates the analysis of clinical practice by providing information about the prosthetic models employed and their characteristics, as well as their short, medium and long term results. Upon analysing the data available in the registry it has been observed that the risk of replacement at 3 years (knee: 3.3% [95% CI: 3.1–3.6]; hip: 2.9% [95% CI: 2.5–3.3]) in RACat is higher than that reported by the registry of England and Wales (knee: 2.68% [95% CI: 2.61–2.74]; hip: 2.32% at 3 years [95% CI: 2.25–2.38]), and it is expected that after 7 years of follow-up it will also be higher than those of the Norwegian registry (5.2% [95% CI: 4.8–5.6]) and the registry of the U.S.A. insurer Kaiser Permanente (3.7% [95% CI: 3.4–4.0]).13 In fact, at present the replacement rate of knee arthroplasties in RACat (9.0%) is higher than those of the Italian (6.4%), England and Wales (6.0%) and Swedish (5.2%) registries.14–16

The fact that replacement rates are higher in RACat than in other registries may be associated with the style of practice. In Norway, 94.7% of the total knee arthroplasties were performed without patellar replacement, while the registry of Kaiser Permanente reports replacements in 98.3% of cases, with a similar use of uncemented implants, showing longer survival in Kaiser Permanente.13 In the case of other European countries, patellar replacement took place in 76% of cases in Denmark and only in 11% and 14%, respectively,11 in Norway and Sweden, and in 32% in England and Wales.14 In knee arthroplasty, uncemented or hybrid fixations were also more common in Denmark (22%) than in Norway (14%) and Sweden (2%), which was the country with the lowest risk of replacement.11 In England and Wales, uncemented or hybrid implants accounted for 15% of the total.14

Patellar replacement in RACat is within the range of other countries (38.3%), although it may not be a relevant factor for the survival of the prosthesis.17 Nevertheless, uncemented and hybrid implants are more common (26%) and this fact could influence the risk of replacement since survival is usually less in uncemented implants compared to cemented ones.18 However, these differences have not been observed in RACat. Another aspect that may influence the results is the elevated number of prosthesis models employed. Among other factors, the Swedish hip registry attributed an improvement of its results to a limitation of the number of different prosthesis models employed,19 although it would be necessary to confirm this hypothesis with further studies. Despite these results, the differences observed should be interpreted with caution since they are raw comparisons, so that aspects related to the characteristics of patients in each registry or the information collected and its interpretation are not taken into account.11

Data quality in RACat has improved throughout the study period. However, coverage is not as high as in other registries and the lack of information on laterality and data enabling prosthesis identification have led to various cases being excluded from survival analysis. This could affect estimates, although the tendency towards improvement of data quality will limit this effect in the future. In the case of Australia, coverage reached 93% by the year 2010,20 England and Wales reached 99.1% that same year,14 and the Swedish records (hip and knee) also exceeded 95% coverage,15,21 while coverage in RACat was 78.3% for knees and 71.6% for hips in 2010. This could limit the representativeness of the results. However, it should be noted that, for the moment, only those hospitals in the public network of Catalonia are participating in the project, and these only account for 80–85% of the total surgical activity. Furthermore, the available monitoring time may currently represent a limitation to evaluate the results of the prostheses, which could partly explain the lack of differences in risk of replacement of the metal–metal friction coupling, for which a higher risk of replacement was expected.6 Other factors that may have influenced this result are the small number of surface prostheses implanted and differences in the selection of prostheses. In Catalonia, 2 of the 3 surface models with less survival,6 Bionik® (Orthodynamics, Lübeck, Germany) and Icon® (International Orthopaedics, Geisingen, Germany), are not used and the third, DePuy Articular Surface Replacement® (ASR), has only been implanted in 50 patients. In the case of femoral head size, this could not be analysed as detailed in the published works, since there is currently no information on it.

The significant volume of hip and knee arthroplasties performed by the National Healthcare System22 and the impact that this type of procedures have for the healthcare system, call for the creation of a registry of arthroplasties. Knowing the results throughout the National Healthcare System could help to improve the quality of healthcare by providing information to support decision-making by physicians, hospital managers and health planners. In this regard, it should be noted that in Spain there is a lack of relevant information about the results of knee and hip arthroplasties. A comprehensive literature review of articles published by Spanish researchers on hip and knee arthroplasties with a longitudinal design, with a minimum of 6 months follow-up and with a sample size of over 30 patients, yielded 36 works for the period 1996–2006.1 As a possible result of this, prostheses with worse than expected results could go unnoticed. In addition, ongoing evaluation enables the detection of problems not only at the level of the prostheses but also of the hospitals or professionals performing the intervention, as in the case of the registry of England and Wales.14

Making the most of existing experiences in the National Healthcare System could facilitate a consensus on the structure and function of a joint implant registry, which should include the minimum information required by the International Society of Arthroplasty Registries.9 An arthroplasty registry could work as a tool enabling a system of continuous assessment and improvement of the quality of healthcare through a common protocol.23 In turn, this could become an instrument which would provide the information necessary to establish quality standards. Thereupon, obtaining results below a reference standard would not be a problem, but would instead offer an opportunity for improvement.

Level of evidence i.

The authors have no conflict of interests to declare.