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Clinical Trial Summary

The Study aims to investigate whether there is a clinically important difference in peri-articular bone mineral density (BMD) and trabecular bone score (TBS) between patients undergoing two different types of knee replacement fixation - uncemented Tritanium total knee replacement (TKR) and cemented Triathlon TKR. Before undertaking a full randomised control trial however, it is necessary to establish that the proposed methodology and approach are feasible. Therefore an internal pilot study will be performed first. This registration is for the internal pilot study.


Clinical Trial Description

There have been many studies published that have shown a reduction in bone density around knee replacements. Exact reasons for this are not fully understood but one theory is that the stresses transmitted to the bone around a new knee replacement do not adequately load the surrounding bone due to the stress shielding effects of the cement. Bone requires itself to be loaded by weight-bearing pressure in order to maintain its density and structural integrity. A loss of bone density around the knee has potentially significant consequences for patients. The ability of the bone to support the knee replacement may be compromised, potentially leading to subsidence and failure of the joint replacement. Patients are known to be more prone to falls within 1 year of having a TKR in comparison to age matched controls who have not undergone knee replacements. The incidence of falls following knee replacement was shown to be 38% in one study after the first year post-operatively, compared to 24% in non-TKR subjects. A reduction in bone density following TKR also renders patients more prone to aseptic loosening and fracture around the knee replacement with potentially disastrous consequences. The majority of research seems to demonstrate a loss of BMD around the knee at around 12 months following TKR surgery, with the most significant BMD decrease occurring between the period of 5-12 weeks post-surgery, occurring primarily at the periprosthetic region. Up to 68% of patients have been reported as showing BMD loss after TKR at the distal anterior femur within the first 12 months post-operatively. The possible fracture risk associated with this has been investigated. Women aged ≥ 70 years who have undergone TKR surgery are 1.6 times more likely to have a fracture than younger patients and 2.3 times more likely to suffer a fracture than men. Bone density is measured by use of Dual X-ray Absorbitometry scans (DEXA). However, DEXA bone density measurement alone provides an incomplete picture of bone strength. DEXA measurement is derived from the bone mineral content (BMC) divided by bone area, but does not account for the distribution of the trabeculae and the structural integrity of the microarchitecture. This has led to the development of a tool called the trabecular bone score (TBS) which is able to differentiate between microarchitectures that exhibit the same density. Advancement in technology has led to re-designs in uncemented knee replacements. These newer implants are able to withstand torsional stresses that previously would have concerned surgeons who feared implant movement in the early post-operative phase. The development of biologic coatings on to TKR components also means that bony on-growth and thus stability of the knee implant is achieved much more quickly than was previously. Surgeons have become keener to use such uncemented devices and recent research has shown comparable results in terms of patient satisfaction, Oxford Knee Scores and the need for revision surgery between cemented and uncemented devices. Bone architecture responds to the stresses placed upon it. Theoretically, cementless fixation could help preserve periprosthetic bone stock. In uncemented total knee replacements' weight-bearing loads are transmitted through the prosthesis directly to the surrounding bone as opposed to being dissipated by a layer of cement between the implant and the periprosthetic bone. Other potential benefits of cementless fixation include shorter operating room time, ease of revision, and the elimination of complications associated with cemented fixation, including debridement of the cement and resulting loose fragments. Patterns of wear (osteolysis) can occur in cemented implants, it is hoped that the new generation of highly porous uncemented implants will enable biological bony fixation of the implant, thus providing greater osseous integration and more durable fixation. If the number of TKR continues to rise as predicted, the economic consequences for the NHS are significant. Further clarity on the potential benefits of one implant over another is required to contribute to our knowledge of best practice and evaluate cost effectiveness. The Triathlon cemented knee replacement has been used worldwide since 2004. A new version of the implant has been developed, this newer version has the same geometry as the Triathlon TKR but has been designed with a special biological coating which enables it to be used without cement, it is currently in use in the US. We would like to assess the potential of this implant to reduce bone density loss around the knee and to see if this will reduce the risk of bone fracture. At the same time we would like to ensure at least the non-inferiority of the uncemented implant compared to the cemented one both in terms of patient satisfaction, functional ability and improvement. We would also like to evaluate cost effectiveness of the two methods of fixation; to see if the shorter operating time associated with not using cement will result in significant cost saving for the NHS. Before undertaking a full randomised control trial investigating the above, we would like to establish that the proposed methodology and approach are feasible. Therefore an internal pilot study will be performed first. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04040764
Study type Interventional
Source Royal Devon and Exeter NHS Foundation Trust
Contact Adam C Nelson, BSc
Phone 01392 408521
Email adam.nelson2@nhs.net
Status Recruiting
Phase N/A
Start date October 15, 2019
Completion date May 2023

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