Primary total hip arthroplasty in patients with osteoarthrosis secondary to developmental hip dysplasia is often more complex due to anterolateral acetabular bone deficiency. Femoral head (shelf) autograft provides a non-immunogenic, osteoconductive lateral support with the potential for enhanced bone stock should revision surgery be required. The technique has been shown in other series to give reliable early results but may be complicated by graft revascularisation and collapse. As yet, no study has assessed shelf grafts long term or quantified the need for further bone graft at revision surgery. This study aims to assess initial graft union rate; quantify long term graft resorption and; quantify the need for further bone graft in the patients requiring revision surgery. A retrospective analysis of a single surgeon's series of 31 THR in 25 patients was conducted. Post-operative, biplanar radiographic analysis was performed at 3 and 6 months and annually thereafter for a mean of 14 years (range 8-18). Grafts were assessed for union, resorption and displacement. Intra-operative necessity for bone graft at revision surgery was recorded. Union, osseous 93%, fibrous 7%. No grafts displaced. In 71% less than one-third of the graft resorbed, in 29% one-third to one-half resorbed and in no grafts did greater than a half resorb. Of 10 patients revised, 2 required bone graft for inadequate bone stock. Femoral head autograft allows effective acetabular coverage with excellent rates of union, minimal graft resorption in the long term and improves bone stock in revision surgery.
Modern cementation techniques in hip arthroplasty are enhanced by the use of a cement restrictor. Failure of cemented hip replacements is commonly caused by aseptic loosening. Cement plugs which occlude the medullary canal are widely used to increase cementation pressures. Many plug types with variable performance exist. Ideally, plug performance should be sufficient regardless of other factors. All plug designs are circular in cross section, yet the vast majority of human femora are of oval section, the average ellipticity for human femora being 1.3. This study aims to determine (I) the effect of cement viscosity, canal shape and canal size on plug performance and (II) which designs of cement restrictor are able to withstand cementation pressures, regardless of values of other potentially influential factors.