Dislocation is a recognised complication following the posterior approach in total hip arthroplasty. The senior surgeons involved in this study had routinely repaired the short external rotators and capsule by directly suturing ‘tendon to tendon’ and ‘capsule to capsule’ using No 1 Vicryl®. Over a two-year period this had no impact on the incidence of dislocation as compared to “no soft tissue repair” that had been done historically. In order to assess the effectiveness of ‘soft tissue to soft tissue’ repair fifteen patients were assessed using radiographic markers inserted during surgery. In 14 of the 15 patients the repair was found to have failed by the time of the post-operative x-ray which was taken on day 3 to 5. Since then we have changed the repair so that the capsule and rotators are reattached to bone with No 5 Ethibond® using drill holes in the trochanteric region. This modification was evaluated using the same method. Of 15 patients in the second type of repair only 2 showed a failure of repair on the post operative X-ray. This appears to be a more secure form of repair. The impact of this on the incidence of dislocation is being evaluated.

We performed a prospective clinical study in order to assess the effectiveness of repair of the short hip rotators, divided in the course of total hip replacement by the posterior approach, by the use of radio-opaque markers.

Fifteen patients, each with a diagnosis of osteoarthritis of the hip, were selected consecutively from a single surgeon’s operating list. Uncemented Duraloc® acetabular components and custom made cemented femoral components were implanted via the posterior approach in all patients.

Following implantation, the capsule and the short rotator tendons were sutured on to tendinous soft tissue around the greater trochanter using No 1 Vicryl. One radio-opaque marker clip was attached to the short rotators and capsule and a second marker was attached to the greater trochanter.

Standard antero-posterior pelvic X-rays were taken at three to five days post-operatively, and at three months following surgery. Significant separation of the radio-opaque markers in fourteen of the fifteen patients was demonstrated on the day three to five X-ray, indicating failure of the repair.

We conclude that this soft tissue repair is unsatisfactory. It may be of value to develop a more effective repair technique, with the overall aim of reducing total hip replacement dislocation, and as such we are currently investigating a soft tissue to bone repair.

Work carried out by Bennett [1], identified a link between patient gait pattern and total hip prothesis wear rate. This study found that the shape of the patient gait pattern (as quantified by aspect ratio) and sliding distance of the movement loci were found to have an improved positive correlation with wear rate compared to the factors of activity and patient weight. The distribution of theoretical shear stresses at selected points on the acetabular cup suggests that orientation of the polymer chains may occur. Wang et al, 1997 [2] has shown that failure of the UHMWPE wear surfaces occurs in the form of transverse rupture between oriented molecules.

This work investigates the hypothesis that the gait pattern of pre-revision THR patients has an effect on the wear, surface characteristics and material properties of the artificial hip joint, in particular the degradation of chemical and mechanical properties of the UHMWPE acetabular socket. Gait analysis is performed on patients prior to revision of a primary THR, with the retrieved socket used for subsequent analysis.

Chemical and mechanical analysis of a large number of retrieved UHMWPE acetabular sockets has shown clear structural changes, which are dependent on the length on time in-vivo. Increasing the length of time in-vivo between 2 and 20 years results in an increase in the percentage crystallinity of the UHMWPE of 12.7 %. A positive linear correlation (R2 = 0.765) between percentage crystallinity and number of years in-vivo is shown. This suggests recrystallisation of the polymer at a constant rate over time. This partial recrystallisation of the amorphous region correlates with degradation in the mechanical properties of the material. This pilot study aims to assess the effect of patient gait pattern on the chemical and mechanical degradation of UHMWPE, which will ultimately affect the clinical performance of the prothesis.

Currently, all details regarding implants are entered into a real time application on the Musgrave Park Hospital site using the Belfast Orthopaedic Information System (BOIS). This is a visual basic client application with data being stored in an SQL server database. This data collection system operates throughout every location within the hospital including the theatre block.

Loss of continuity occurs however when joint replacement takes place in Musgrave Park Hospital and then revision surgery or other procedures are carried out at other locations. The goal therefore of the Northern Ire-land Implant Register is to collect information on all implants performed and their revisions regardless of their location.

The dataset collected is based on the work of the National Joint Replacement Registry. Our system is designed to support and extend that dataset to provide a more comprehensive joint replacement registry database. This means that reports can be provided to individual sites and data entered into the National registry if required at a later stage.

At present every hospital in Northern Ireland is connected to the HPSS network (similar to the HPSSNet in the UK). What has been developed is a web browser based front end, which requires no complex software installation on any client machine. From this web based tool, staff at other locations can access information held at Musgrave Park Hospital, they can select an implant, or record a new implant and then link any revisions or other procedures carried out.

As all of the information is entered directly into the BOIS database, there is no delay in the information being available to all who access the system. This reduces the need for case notes to be transferred to other sites and the need to contact the other site directly regarding the case. The interface also provides a comprehensive reporting capability so that commonly requested standard reports are available for authorized staff to run from their web browser.

We present an overview of how the web interface works in practice and how data is entered into the system.

To maximise the long-term survivorship of any hip prosthesis it is important to recreate joint centre. Normal joint centre is determined by horizontal offset and vertical height of the acetabular and femoral components. In this study joint centre and horizontal offset were analysed in 200 consecutive patients operated on from October 1998 in whom the opposite hip was normal. Joint centre was defined relative to the acetabulum and femur both pre- and post-operatively. On the acetabular side a horizontal line was drawn across the pelvis immediately below each teardrop. A vertical line was drawn at right angles through the middle of each teardrop. Acetabular offset was defined as the horizontal distance from the vertical trans teardrop line to head centre. For femoral offset a screened x-ray was taken to show maximum offset. The anatomical axis was drawn and the offset was defined as the distance from the anatomical axis to head centre.

Our results show on the acetabular side there was an overall tendency to leave the joint centre medial and so decrease acetabular offset. However, we found that 90% of our sockets were placed within 6 mm of normal joint centre. We attribute this accuracy to the principle of visualising the transverse acetabular ligament intra-operatively and using this landmark to control depth of socket insertion. Conversely, on the femoral side there was a slight tendency to increase the offset. Nevertheless, 98% of the custom stems were within 10mm of normal joint centre. When we looked at total horizontal offset i.e. the combination of femoral and acetabular offset we found that joint centre had been restored to within 10mm in 93% of cases.

This study confirms the effectiveness of the custom femoral stem and Duraloc socket in restoring joint centre.

Introduction: Since 1992 over 3000 custom-made cemented titanium femoral components have been implanted during total hip replacement in our centre.

Stems are machined using CAD-CAM. Measurements are made from screened AP and lateral x-rays of known magnification. Normal joint centre is recreated by controlling offset and vertical height of the femoral component.

Method: Joint centre and limb length were analysed radiologically in consecutive 100 patients following total hip replacement for unilateral arthritis. Joint centre was defined relative to the pelvis and femur.

The anatomical axis and offset of the femur were defined using a screened x-ray of known magnification taken to show maximum offset. Femoral centre height was defined relative to the greater trochanter.

Results: In general, acetabular joint centre was placed medial and high, tending to reduce limb length slightly. Conversely, on the femoral side the tendency was to leave the component proud, producing an increase in limb length. Most patients had limb length restored to within 6mm of normal.

This study confirms the effectiveness of the Belfast Custom Stem in restoring joint centre and limb length.