Subsidence is a Predictor for Stem Revision due to loosening or osteolysis
Subsidence is a Predictor for Stem Revision due to loosening or osteolysis
Abstract
Subsidence is a Predictor for Stem Revision due to loosening or
osteolysis
247 primary cemented stems with rough surface followed for 2-17 years
with Radiostereometric Analysis
Master thesis in Medicine
By
Martin Antonsson
MStat, MScCSE
Supervisor
Johan Kärrholm
MD, PhD
Co-supervisor
MaziarMohaddes
MD, PhD
The cemented Spectron EF stem, frequently used in Sweden between 1990 and 2010, underwent
minor design changes in 1994 and was renamed Spectron EF Primary and smaller sizes were
introduced. The length of the stem, previously 15 cm for all sizes, was reduced by steps for each
reduction in size. According to data from the Swedish Hip Arthroplasty Register, these design
changes were associated with a 3-4 times increased risk of revision due to loosening or osteolysis
after 6 years. From 1995 to 2005 the Spectron EF Primary stem was used in several
radiostereometric(RSA) studies to evaluate new types of cement and polyethylene. This study
uses data from several of studies and aims to evaluate if stem subsidence measured with RSA
could be used to predict later revision due to loosening or osteolysis. Ethical approval was
received from the regional ethics review board in Gothenburg.
Patients and Methods
In total 279 hips operated with a Spectron EF Primary stem between 1996 and 2005 were
identified. All had previously been included in RSA studies. The stems were supplied with small
titanium towers press-fitted into the stem at the shoulder, at the collar and at the tip of the stem,
each containing tantalum beads. For measuring purposes, the femoral head center was also
included in the stem segment. RSA examinations were performed within one week after
operation and further studies were scheduled after 6 months, 1 year, 2, 5, 7, 10, 13, 15 and 17
years. Conventional radiographic examinations were performed at each follow-up occasion past
the 6-month follow-up. The inclusion criteria were existing migration data up to at least 2
years.This resulted in 247 hips (161 females, 86 males) available for further analysis. Median age
at operation was 62 years (range 29-80) and median follow-up time was 13.9 years (range 2.6-
18.2). Case records and the Swedish Hip Arthroplasty Register database were used to obtain
information about revision procedures. At the last follow-up 27 stem had been revised due to
mechanical failures related to stem loosening with or without osteolysis. Another 5 were
classified as radiographic failures.
Results
The 10-year stem survival was 93.8 percent (95% CI 89.7% - 96.3%), slightly below 95 percent
which would be considered good for cemented stems. 15-year survival decreased to 86.3 percent
(95% CI 81.3% – 91.3%). Wilcoxon signed-rank tests show that the stems are continually
subsiding even after 12-13 years at a significant rate (p < 0.0005). Each mm of subsidence at 2
years increases the risk of later loosening 5.7 times (p <0.001). Subsidence exceeding the riskvalue
0.15mm at two years increased the risk of later loosening 5.2 times (p<0.001). Small stem
size (size 1) increased the risk of later failure 7.8 times compared to stem size 2. For stem sizes 3
or bigger the risk decreased compared to size 2 (HR 0.06, 95% CI 0.004 – 0.80). High offset
increased the risk of later loosening 3.2 times (95 % CI 1.5-7.0). Male gender was associated
with increased risk of later loosening (HR 6.5 95% CI 3.0 -16).
Discussion and Conclusion
The reason why seemingly minor design changes of the Spectron stem resulted in substantially
higher revision rates due to loosening and osteolysis is not clear but the introduction of smaller
sizes seem to explain some of it. According to our study a rather minor increase of the stem
subsidence and rotation into retroversion within 2 years increased the risk of revision. Poorer
results with the smaller sizes associated with accelerating subsidence past 2 years suggest that
debonding of the stem from the cement mantle due to repetitive load occurring more easily after
the design changes were made. Thus, it seems probable that a major drawback with the altered
design was reduction of the load bearing surface area of the stem facing the cement mantle. Our
study indicates that RSA is of value in predicting failure of a cemented stem with rough surface.
Degree
Student essay