Revision of the femoral component during revision hip arthroplasty may pose significant technical challenges, most notably femoral fracture and bone perforation. The in-cementing technique allows use of the original bone-cement interface which has been proven to be biomechanically stronger than recementing after complete removal of the original cement mantle. This study reviews a series of 54 consecutive revision hip arthroplasty procedures carried out by the senior author using the in-cementing technique from November 1999 to March 2003. Patients were followed up clinically and radiologically with serial outpatient reviews and their functional outcome was assessed using the Harris hip scoring system, the Oxford hip scoring system and the University of California at Los Angeles (UCLA) activity profile. Their physical and mental well-being was also assessed using the SF-36 self-questionnaire. Fifty-four procedures were performed on 51 patients. There were 31 males and 20 females. The average age was 70.3+/-8.1 years (range: 45-83 years). The average time to revision from the original procedure was 132.8+/-59.0 months (range: 26-286 months). The average length of follow-up was 29.2+/-13.4 months (range: 6-51 months) post revision arthroplasty. Two patients suffered dislocations, one of which was recurrent and was revised with a Girdlestone's procedure. No patient displayed any evidence of radiographical loosening. The average Harris hip score of the study group was 85.2+/-11.6 (range: 51.9-98.5). The average Oxford hip score recorded was 19.6+/-7.7 (range: 12-41) and the average UCLA activity profile score was 5.9+/-1.6 (range: 3-8). The SF-36 questionnaire had an average value of 78.0+/-18.3 (range: 31.6-100). In conclusion, the results of this study show excellent clinical and radiological results of the in-cementing technique with high patient satisfaction in terms of functional outcome. This technique merits consideration where possible in revision hip arthroplasty.
The unit was closed for 9 weeks following the outbreak and deep cleaning resulted in eradication of endemicity.
Revision of the femoral component during revision hip arthroplasty may pose significant technical challenges, most notably femoral fracture and bone perforation. The in-cementing technique allows use of the original bone-cement interface that has been proven to be biomechanically stronger than recementing after complete removal of the original cement mantle. This historical prospective study reviews a series of 54 consecutive revision hip arthroplasty procedures carried out by the senior author using the in-cementing technique from November 1999 to March 2003. Patients were followed up clinically and radiologically with serial outpatient reviews and their functional outcome was assessed using the Harris hip scoring system, the Oxford hip scoring system and the University of California at Los Angeles (UCLA) activity profile. Their physical and mental well being was also assessed using the SF-36 self-questionnaire. Fifty-four procedures were performed on 51 patients. There were 31 males and 20 females. The average age was 70.3+/−8.1 years (range: 45 – 83 years). The average time to revision from the original procedure was 132.8+/−59.0 months (range: 26 – 286 months). The average length of follow up was 29.2+/−13.4 months (range: 6 – 51 months) post revision arthroplasty. Two patients suffered dislocations, one of which was recurrent and was revised with a Girdlestone’s procedure. No patient displayed any evidence of radiographical loosening. The average Harris hip score of the study group was 85.2+/−11.6 (range: 51.9 – 98.5). The average Oxford hip score recorded was 19.6+/−7.7 (range: 12 – 41) and the average UCLA activity profile score was 5.9+/−1.6 (range: 3 – 8). The SF-36 questionnaire had an average value of 78.0+/−18.3 (range: 31.6 – 100) with an average physical score of 73.3+/−22.2 (range: 20.5 – 100). In conclusion, we feel the results of this study show excellent clinical and radiological results of the in-cementing technique with high patient satisfaction in terms of functional outcome. This technique merits consideration where possible in revision hip arthroplasty.
Aseptic loosening of the acetabular component is the major long-term complication of cemented total hip arthroplasty (THA). Failure of the acetabular cup occurs two to three times more frequently than failure of the femoral component. Third generation cementing techniques have improved the longevity of cemented components in THA. Although suction venting of the femoral shaft is a well-recognised practice, venting of the acetabulum during the cementing process has been little studied. This prospective study sets out to evaluate the effect of iliac wing vacuum aspiration on cement penetration of the acetabulum. Forty patients (Male 18, Female 22) aged 19–82 years (average 67+12 years) undergoing primary THA were entered consecutively into two study groups (20 hips per group). Reasons for THA included osteoarthritis (35) acetabular Dysplasia (2), rheumatoid arthritis (1), perthes (1) and conversion THA post dynamic screw (1)>
A single consultant surgeon performed all procedures in a standard operating room with laminar flow. A posterior approach was used in all hips. Third generation cementing techniques were used for acetabular component insertion. Twenty-six millimetres internal diameter Charnley ogee LPW polyethylene cups (Depuy) with varying external diameters [43 mm (9), 47 mm (24), 50 mm (5) and 53 mm (3)] were used and implanted with “Simplex” polymethylmethacrylate cement (Howmedica). Group 1 underwent acetabular cement pressurisation for sixty seconds prior to insertion of cup. Group 2 underwent pressurisation with simultaneous vacuum suction of the ipsilateral ilium using an Exeter iliac wing aspirator. Pre-and post-operative haemoglobin values were recorded for all patients. Standard post-operative radiographs were reviewed blindly to assess penetration of cement. A custom-made template facilitated measurement of depth (mm) of cement penetration in three areas corresponding with Delee-Charnley acetabular zones. Cement penetration was enhanced in all zones following iliac wing vacuum aspiration. The effect of venting was statistically significant (zone I 21.1+6.4mm v 12.8+2.8mm. zone II 7.0+2.4mm v 5.5+2.0mm, zone III 5.3+2.4mm v 4.2+1.4mm). The bone cement mantle interface was also completely obliterated following iliac wing aspiration.