Functional evaluations using the Harris hip scoring system and the delayed Trendelenberg test were performed on fifty randomly selected patients who had undergone cemented primary CPT total hip replacements (Zimmer UK) at least 12 months previously using Hardinge approach. The prosthesis used increases offset with femoral stem diameter but did not allow separate correction of neck offset. Patients were grouped according to whether hip offset had been accurately reconstructed, increased or decreased. Their functional outcomes were compared. There was no significant difference (p value 0.57) in the final functional outcome between the three groups. Reconstruction of the hip using a standard cemented CPT prosthesis produced considerable variation in the reconstructed hip arthroplasty offset. This resulted in no functionally significant effect. Accurate reconstruction of the hip joint offset in total hip arthroplasty may therefore not be as important in the early functional outcome as recently advocated.
Maquet's line passes from the centre of the femoral head to the centre of the body of the talus. The distance of this line from the centre of the knee on a long-leg radiograph provides the most accurate measure of coronal alignment. Malalignment causes abnormal forces which may lead to loosening after knee replacement. We report a series of 115 Denham knee replacements performed between 1976 and 1981 using the earliest design of components, inserted with intramedullary guide rods. Patients were assessed clinically and long-leg standing radiographs were taken before operation, soon after surgery and up to 12 years later. In two-thirds of the knees (68%) Maquet's line passed through the middle third of the prosthesis on postoperative films and the incidence of subsequent loosening was 3%. When Maquet's line was medial or lateral to this, an error of approximately +/- 3 degrees, the incidence of loosening at a median period of eight years was 24%. This difference is highly significant (p = 0.001). Accurate coronal alignment appears to be an important factor in prevention of loosening. Means of improving the accuracy of alignment and of measuring it on long-leg radiographs are discussed.