Abstract
Background: Reverse obliquity and transverse fractures of the proximal femur represent a distinct fracture pattern in which the mechanical forces displace the femur medially thus increasing the risk of fixation failure. There is a paucity of published literature in this area of trauma. This study constitutes the largest series of such fractures.
Methods: Using the hip fracture registry at this institution 101 reverse obliquity and transverse fracture patterns were identified from 3336 consecutive hip fractures. All surviving patients were followed up for 1 year.
Results: Of 100 patients treated operatively, 59 were treated with 1350 sliding hip screws (SHS), 22 were treated with 1350 sliding hip screw devices designed to resist medialization (3 sliding hip screws with trochanteric plate and 19 Medoff plates), and 19 were treated with intramedullary sliding hip screw devices (1 short Gamma nail, 9 long Gamma nails, 6 Reconstruction nails, 6 long Targon nails, 1 short Targon nail). The SHS had 4 failures (6.8%), and the intramedullary devices one failure (5.3%). Those extramedullary devices augmented to prevent medialization had higher failure rates (1 of 3 SHS with trochanteric plate and 3 of 19 Medoff plates), with combined failure rate of 15.8%.
Conclusion: The 1350 SHS and the intramedullary devices had similar failure rates of 6.8% and 5.2% respectively. Those extramedullary devices designed to prevent medialization had higher failure rates (combined failure rate of 4/22 or 18%). This is similar to the high failure rate in 950 devices reported elsewhere. This suggests that extramedullary devices attempting to combat the difficult biomechanics of these fractures are unsuccessful. Better results can be obtained by using the standard 1350 SHS or with intramedullary sliding hip screw devices.
Theses abstracts were prepared by Professor Roger Lemaire. Correspondence should be addressed to EFORT Central Office, Freihofstrasse 22, CH-8700 Küsnacht, Switzerland.
