Purpose: Dislocation is one of the most common complications following total hip arthroplasty (THA), with rates reported between 1% and 3%, but as high as 6% using a posterior approach with metal on polyethylene bearing surfaces. The purpose of this study was to assess the dislocation rates in ceramic-on-ceramic THAs.

Method: Primary ceramic-on-ceramic (Stryker Orthopaedics) THAs performed at 9 institutions from October 1996 through July 2005 were included in the study (1635 hips in 1485 patients). Sixty-one percent were male. The average age was 52 years (range 15–83). Osteoarthritis was the leading reason for surgical intervention (86%). A posterior approach and 32 mm or 36 mm femoral head was used in the majority of patients (90%). Patients returned for routine clinical examination or were contacted by telephone to assess for dislocations at a minimum of one year (average three years) after surgery.

Results: Of the 1635 ceramic-on-ceramic THAs performed, there were 18 dislocations (1.1%). Of these, 15 were 32 mm femoral heads; 3 were 28 mm; none were 36 mm. The majority of dislocations occurred within 3 months after surgery (72%). Closed reduction was successful in 17 hips with one requiring a revision.

Conclusion: A low rate of dislocations in ceramic-on-ceramic THAs occurred in this study (1.1%). Compared with reported metal-on-polyethylene bearing surfaces, the ceramic-on-ceramic articulation design appears to have fewer dislocations. Other factors associated with this low dislocation rate may be decreased femoral neck diameters and/or larger average femoral head size in patients receiving the ceramic-on-ceramic design. These results will need to be compared with contemporary THA using different articular surfaces.

We have investigated the role of the penetration of saline on the shear strength of the cement-stem interface for stems inserted at room temperature and those preheated to 37°C using a variety of commercial bone cements. Immersion in saline for two weeks at 37°C reduced interfacial strength by 56% to 88% after insertion at room temperature and by 28% to 49% after preheating of the stem. The reduction in porosity as a result of preheating ranged from 71% to 100%. Increased porosity correlated with a reduction in shear strength after immersion in saline (r = 0.839, p < 0.01) indicating that interfacial porosity may act as a fluid conduit.