Bernese periacetabular osteotomy (PAO) repositions the acetabulum to increase femoral head coverage (FHC) in hip dysplasia. Currently, there is a paucity of objective peri-operative metrics to plan for optimal acetabular fragment repositioning. The MSk Lab Hip 3D Planner (MSkL-HP) measures acetabular morphology and simulates PAO cuts to achieve optimal FHC. We evaluated how adjusting location and orientation of cutting planes can alter FHC. MSkL-HP simulated 274 feasible PAOs on four dysplastic hips. Femoroacetabular anatomy was landmarked to simulate cutting planes. Posterior column and ischial cuts were standardised, whilst iliac and pubic cut combinations varied. The slope of the iliac cut was either neutral (aligned to pelvis), exit point 5mm above the entry point (+5), or 5mm below (-5). The slope of the pubic cut was either 90°, 50°, or 70° (medial-to-lateral). Iliac and pubic cuts were simulated 0, 5 and 15mm - distal and medial – to a classic cut. Outcome measures were achieved LCEA, Tönnis, FHC and % bone overlap at the pubic cut. Targets were LCEA >30°, Tönnis angle <10°, and FHC >70% and minimum bone overlap ≥10%.Introduction
Method
We report the results of 60 patients who were assessed using the Oxford Hip Score following surgery for revision of ASL XL and ASR Resurfacing systems at our institution. We included preoperative metal ion levels, surgical approach, revision implant, and post op histology and complications to determine variables for improved outcomes. We performed a retrospective review of consecutive series patients who underwent revision surgery between 2007 – 2015. We collected and analysed data from 60 patients regarding time between surgery, surgical technique including approach and anaesthesia, estimated blood loss (EBL), revision implant, post op complications, histology, and length of post-operative stay. We correlated these findings to the patients reported outcomes measures using the Oxford Hip Score, which were obtained by post.Aim
Methods
