Abstract
BackgroundIntraoperative proximal femoral fractures (IPFF) are relevant complications during total hip arthroplasty. Fixation using cerclage wires (CW) represents a minimally-invasive technique to address these fractures through the same surgical approach. The goal of treatment is to mobilise the patient as early as possible, which requires high primary stability. This study aimed to compare different cerclage wire configurations fixing IPFF with regard to biomechanical primary stability.MethodsStandardised IPFF (type II, Modified Mallory Classification) were created in human fresh frozen femora and were fixed either by two or three CW (1.6 mm, stainless steel). All cadaveric specimens (n = 42) were randomised to different groups (quasi-static, dynamic) or subgroups (2 CW, 3 CW) stratified by bone mineral density determined by Dual Energy X-ray Absorptiometry. Using a biomechanical testing setup, quasi-static and dynamic cyclic failure tests were carried out. Cyclic loading started from 200 N to 500 N at 1 Hz with increasing peak load by 250 N every 100 cycles until failure occurred or maximum load (5250 N) reached. The change of fracture gap size was optically captured.ResultsNo significant differences in failure load after quasi-static (p = 0.701) or dynamic cyclic loading (p = 0.132) were found between the experimental groups. In the quasi-static load testing, all constructs resisted 250% of the body weight (BW) of their corresponding body donor. In the dynamic cyclic load testing, all but one construct (treated by 3 CW) resisted 250% BW.ConclusionsBased on this in vitro data, both two and three CW provided sufficient primary stability according to the predefined minimum failure load (250% BW) to resist. The authors recommend the treatment using two CW because it reduces the risk of vascular injury and shortens procedure time.
Highlights
Intraoperative proximal femoral fractures (IPFF) are relevant complications during total hip arthroplasty
The Femora were stored at − 80 °C. prior to testing, the specimens were analysed using Dual Energy X-ray Absorptiometry (DXA) (Hologic Delphi A QDR-Series, Hologic, Inc., Marlborough, MA, USA) and randomised to different groups including two subgroups (2 cerclage wires (CW), 3 CW) each stratified by bone mineral density (BMD)
All nine constructs treated with two CW and all but one of the eleven constructs treated with three CW resisted at least 250% body weight (BW)
Summary
Intraoperative proximal femoral fractures (IPFF) are relevant complications during total hip arthroplasty. The goal of treatment is to mobilise the patient as early as possible, which requires high primary stability. Total hip arthroplasty (THA) is considered one of the most successful surgical interventions [1] Even this frequently performed operation is associated with complications. The goal of treatment is to achieve fracture fixation with high primary stability in order to allow patient’s early mobilisation. This fixation can be done through the existing surgical approach that was chosen for implantation of THA components.
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