Abstract
Purpose
The reported usage of UKA is around 10% in the UK, Australian and New Zealand joint registries. However, some authors recommend that a higher UKA usage of 20%, or a minimum 12 UKA cases per year, would reduce revision rates. The purpose of this study was to analyze the percentage of surgeons performing the recommended thresholds in these 3 registries.
Methods
Data from the UK, Australian and New Zealand registry databases was utilized from the time period since their respective introduction until 2017. All primary TKA and UKA performed for the diagnosis of osteoarthritis by surgeons with more than 100 recorded knee arthroplasties in their respective registry were included. The results between the registries were compared and a pooled analysis was performed. The number of surgeons meeting the recommended caseload of > 20% UKA yearly or 12 UKA cases yearly was calculated.
Results
We identified 3037 knee surgeons performing 1,556,440 knee arthroplasties, of which 131,575 were UKA (8.45%). Over 50% of knee surgeons in each registry had a proportion of less than 5% UKA of their knee replacement procedures. After pooling of data, median surgeon UKA usage was 2.0% (IQR 0–9.1%).
The percentage of surgeons meeting the proposed caseload criteria was highest in New Zealand, 16.3%, followed by the UK at 12.4% and Australia 11.3% (p = 0.28).
Conclusion
More than 50% of knee surgeons in UK, Australian and New Zealand joint registries perform less than 5% of UKA yearly. The majority of experienced knee surgeons are not meeting the recommended minimum thresholds, which might indicate that the recommended thresholds are not feasible for the vast majority of knee surgeons. The reasons behind this require further research.
Level of Evidence
Level III retrospective registry study.
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Introduction
Advanced medial knee osteoarthritis (OA) requiring an arthroplasty can be managed with a total knee arthroplasty (TKA) or a unicompartmental knee arthroplasty (UKA) [31]. A recent large systematic review and meta-analysis demonstrated better functional scores for UKA and no difference in pain [31]. Major complications and mortality were higher after TKA. However, the revision rate of UKA was reported to be 2.5–6 times higher [31]. These differences are a topic of considerable debate, with some arguing that fewer UKAs should be performed to reduce this revision risk, and others argue that the revision rate can be reduced by performing more UKAs [22]. Increasing the number of UKA is supported by reports suggesting that up to 48% of knee arthroplasty patients are suitable for UKA [30], and by a registry study from the United Kingdom reporting an acceptable revision rate when surgeons have at least 20% of UKA usage out of their complete knee arthroplasty caseload with optimal results between 40 and 60% UKA usage within their complete knee arthroplasty caseload [15]. Surgeons with a < 5% UKA caseload have the highest revision rate [15]. Alternatively, in another study a minimum yearly caseload of 12 UKA significantly decreased the revision rate and this is also recommended as a threshold [23].
The reported usage of UKA in the most recent New Zealand, Australian and UK joint registry reports are 11.5%, 8.5%, and 10.1% respectively [24,25,26]. These numbers incorporate all cases, including those performed by orthopedic generalists and therefore may not represent the practice of specialist knee surgeons.
The aim of this study was to determine UKA usage across three national registries, and to identify the of percentage of knee surgeons in each registry that meet the proposed minimum recommendations of 20% of UKA or 12 UKA cases yearly. We also aimed to analyze the trends in UKA usage over the duration of the study. Based on the overall UKA usage, we hypothesized that a low number of knee surgeons meet the recommended thresholds.
Methods
Data was obtained from 3 national joint registries; National Joint Registry of England, Wales, Northern Ireland, the Isle of Man and States of Guernsey (NJR), Australian Orthopaedic Association National Joint Registry (AOANJRR) and the New Zealand Joint Registry (NZJR). The registries provided data for primary TKA and UKA procedures, stratified by surgeon ID, for each year, from the commencement of the registry until 31 December 2017. The UK and Australian registries each covered 15 years, and the New Zealand registry 18 years. Both UKA and TKR arthroplasty procedures were included, while revision knee procedures, patellofemoral replacement, bicompartmental and partial resurfacing knee procedures were excluded. We also limited the study to include only surgeons who had a minimum of 100 arthroplasty procedures recorded within their respective national joint registry. The number of surgeons meeting the recommended threshold of > 20% UKA or 12 UKA procedures/year [23] was analyzed for each registry.
Statistical analysis
Cumulative numbers and frequencies were reported for each registry. Yearly UKA usage by caseload was calculated by dividing the number of UKA performed with the number of years of activity in the registry. Yearly UKA usage percentage was calculated as the percentage of UKA in all KA for each surgeon. For non-normally distributed data, median and range were reported in addition to the mean. A two-step cluster analysis was performed to determine the clusters. With the distribution of UKA percentages, and with one cluster set to a minimum of 20% UKA [15], the hierarchical cluster analysis determined 6 clusters: < 1%; 1–5%; 5–10%; 10–20%; 20–30% and > 30%. Correlation between total procedure numbers and UKA usage was assessed using the Pearson correlation. A two-step cluster analysis was used to determine the number of usage clusters and the usage percentages for each cluster. After the between registry comparison was performed, the data was pooled for further analysis. Statistical significance was set at p < 0.05. SPSS 24.0 (IBM, Armonk, NY, US) was used for statistical analysis.
Results
Within the study period, after data pooling, we identified 1,556,440 knee arthroplasty procedures performed by 3037 surgeons (Fig. 1). Of these, 131,575 were UKA (8.45%), averaging 512 arthroplasty cases per surgeon, median 368 (interquartile range 469). Median procedure number of UKA per year, per surgeon was 0.6 (IQR 0–3.4), whereas the median number of TKA per year, per surgeon was 28 (IQR 15.8–51.5). In both the NZ and AUS registries, the usage of UKA peaked at about 20% occurring around 2003, and has declined since then until 2016, Fig. 2.
In the study time period, the percentage of knee surgeons performing > 20% UKA yearly was 10.5%. The percentage of knee surgeons performing at least 12 UKA yearly was 7.6%. The percentage of surgeons meeting at least one of the two criteria was 12.1%. It was highest in New Zealand at 16.3%, followed by the UK (12.4%) and Australia (11.3%) (Fig. 3). There was no statistically significant difference in proportion of UKA between the registries (p = 0.28).
More than 50% of knee surgeons in each registry used UKA for less than 5% of their knee arthroplasty procedures, and over 35% of surgeons in each registry used UKA for less than 1% (Fig. 4).
After pooling of data, median surgeon UKA usage was 2.0% (IQR 0–9.1%). In the pooled data, years of activity showed weak positive correlation with increase in UKA usage (p < 0.001; r = 0.109). There was a weak positive correlation between UKA usage and the overall number of cases performed (p < 0.001, r = 0.192).
Discussion
The most important finding of the present study is that a low number of knee surgeons meet the recommended UKA thresholds of > 20% of UKA yearly or > 12 UKA yearly in 3 registries, only 10.5% and 7.6% of surgeons, respectively. Second important finding is the fact that more than 50% of knee surgeons included in this study perform less than 5% of UKA yearly.
Knee surgeon usage of UKA has been shown to impact revision rates [15]. A 20% threshold has been reported by multiple authors [15, 22, 23]. Liddle et al. suggested that ‘optimal’ surgeon UKA usage is in the range of 40–60% [15] whereas Baker et al. reported that a minimum 12 UKA cases per year lowers the revision rate [2]. In fact, one of the first studies reporting a clear relationship between UKA procedure volume and revision rate was a NZ study from 2006, showing that low use surgeons, performing < 1 UKA/year, had an 8% revision rate [8]. A recent meta-analysis of the interaction of knee arthroplasty caseload and UKA usage found that surgeons performing > 30% of UKA can expect results similar to the published long term UKA series [7]. This meta-analysis included 46 studies, with 5 studies not providing information on the proportion of UKA usage. The principle argument from this meta-analysis is that low usage surgeons have a high revision rate, regardless of their annual caseload. The reasons for this are related to the indications for UKA and revision of UKA, not with the surgical technique. The primary indication is anteromedial OA, with bone-on-bone arthritis medially, a normal ACL and MCL, a preserved lateral and patellofemoral compartment without lateral grooving or bone loss [7]. Although a number of previous contraindications such as a high BMI, patellofemoral OA, lower age have been disproven [3, 6, 27, 28], the results of our study suggest that more than half of knee surgeons identify these indications in 5% of cases or less. Even potential differences in patient presentation, demographics and health systems cannot sufficiently account for the discrepancy.
Even in a setting of a knee arthroplasty caseload of 200 procedures per year, < 5% of cases will result in less than the 12 UKA/year. We found a a mean of 45 knee procedures per surgeon per year, therefore 12 UKA would equate to a proportion of 27% usage which only 6% of surgeons achieved. For the majority of cases of knee osteoarthritis, if the above-mentioned criteria are followed, this would potentially result in too few to reach a 20% or 30% threshold. As the main modes of failure of UKA are loosening and disease progression [16] if the indication criteria were to be expanded, the otherwise already comparatively high revision rate of UKA would most likely increase. Furthermore, the proportion of UKA usage per surgeon does not greatly differ between the registries, which demonstrates a consistency in philosophy in the three countries. This suggests that the proposed thresholds may be unrealistic for the average knee surgeon in the present study, and that higher UKA usage may only be achieved by specialist UKA surgeons. The reasons for this discrepancy might be the difference in application of UKA candidacy criteria [1, 30], difference in patient characteristics [5], bias [13, 21] or a combination of these factors.
Usage over the investigated years demonstrate two trends. The first trend is a decrease from 2004 and 2005 in the NZJR and AOANJRR. This decrease may be related to findings of failure rates, published in this time period, of up to 38% as early as 12 months after surgery due to femoral component loosening [18]. Kort et al. reported 89% survival in 2–7 years follow-up and concluded that a UKA is a demanding procedure [12]. Mercier et al. analyzed 43 UKA that had a 10 year survivorship of 74.7% [19]. These authors argue that exclusion of inappropriate patients and surgical errors could improve the 10-year survivorship to 85.7%. There is a lower revision threshold from UKA to TKA, when compared to TKA [10], and some UKA revisions have been deemed avoidable [11]. The type and reasons for revision, can however, differ, ranging from a UKA being revised to a UKA, towards a complex UKA to TKA revision requiring augments [29]. Any revision is a major event for the patient and a result of a primary TKA after such a revision cannot be always expected [14]. The second trend is a small increase in UKA usage after 2015, observed in all three registries. This can possibly be attributed to an increase in robotically assisted UKA [20, 25]. In 2018, 31.8% of all UKA in Australia were robotically assisted [25]. Reports of improved implant positioning [4] and joint line restitution [9] have helped popularize this method [17].
Limitations
This study has many limitations. The study design was to determine and compare proportions of UKA that surgeons use in the three registries, without investigating the relevant factors that might influence this, apart from surgeon experience. Henceforth, there has been no consideration of the severity of the knee disease, or if this is equivalent in the countries studied. Additionally, the indications and patient assessment of suitability for UKA may vary between surgeons and with registry. We have no access to radiographic data. There has been no comparison of revision rates or other patient outcomes related to the knee surgery undertaken. The threshold of 100 recorded KA cases within the respective registry was chosen as an estimated of an experienced knee surgeon.
Conclusion
More than 50% of knee surgeons in UK, Australian and New Zealand joint registries perform less than 5% of UKA yearly. The majority of experienced knee surgeons are not meeting the recommended minimum thresholds, which might indicate that the recommended thresholds are not feasible for the vast majority of knee surgeons. The reasons behind this require further research.
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Acknowledgements
The authors would like to thank the AOA National Joint Replacement Registry and the hospitals, orthopaedic surgeons, and patients whose data made this work possible. The Australian Government funds the AOANJRR through the Department of Health and Ageing.
The New Zealand Joint Registry is funded from contributions from surgeons, Accident Compensation Corporation, the New Zealand government, and Southern Cross Hospital.
We thank the patients and staff of all the hospitals who have contributed data to the National Joint Registry. We are grateful to the Healthcare Quality Improvement Partnership (HQIP), the NJR Research Committee and staff at the NJR Centre for facilitating this work. The authors have conformed to the NJR’s standard protocol for data access and publication. The views expressed represent those of the authors and do not necessarily reflect those of the National Joint Registry Steering Committee or the Healthcare Quality Improvement Partnership (HQIP) who do not vouch for how the information is presented.
Low percentage of surgeons meet the minimum recommended unicompartmental knee arthroplasty usage thresholds: Analysis of 3037 Surgeons from Three National Joint Registries
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Open access funding provided by Johannes Kepler University Linz. Partial funding for data acquisition was provided by the Three Harbours Trust.
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AK and SWY conceptualized the study. The data was provided by the respective registries. The analysis and interpretation was performed by all authors. AK wrote the first manuscript. DP, PL and SWY revised it. All authors have given approval for the final version of the manuscript. All authors agree to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
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AK is an Associate Editor for BMC Musculoskelet Disord and serves as an Editorial Board member in Arch Orthop Trauma Surg. DP has been paid for presentations by Arthrex and Smith&Nephew. He is a consultant for Arthrex and Global. PL is the Deputy Director of Australian Orthopaedic Association National Joint Replacement Registry. SWY is a consultant for Stryker, has received research support from Stryker and has been paid for presentations by Smith&Nephew.
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Ethical approval statements are a part of the acknowledgments for the 3 registries.
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Klasan, A., Parker, D.A., Lewis, P.L. et al. Low percentage of surgeons meet the minimum recommended unicompartmental knee arthroplasty usage thresholds: Analysis of 3037 Surgeons from Three National Joint Registries. Knee Surg Sports Traumatol Arthrosc 30, 958–964 (2022). https://doi.org/10.1007/s00167-021-06437-7
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DOI: https://doi.org/10.1007/s00167-021-06437-7