Size and location of posterior wall fragment on CT can predict hip instability in a cadaveric model

Purpose: Previous research has been unable to elucidate the exact factors that contribute to hip instability in the setting of posterior wall acetabular fractures. The purpose of this study was to determine the influence of posterior wall fracture fragment size and fracture angle on the stability of the hip joint in a cadaveric model. Methods: Six fresh human cadavers (12 hips) were used. Specimens underwent pre-procedure CT evaluation and were then randomized to one of three groups: posterior wall fragment size (FS) of 15%, 20% and 25%. Osteotomies were performed starting at a fracture angle (FA) of 40 degrees. The specimens underwent an exam under anesthesia (EUA). If the hip remained stable, the fracture angle was increased in 20 degrees increments and re-tested until it became unstable. Results: In the group with a FS of 15%, all hips were stable with a FA of 40 degrees. Increasing the FA to 60 degrees caused all hips to be unstable (subluxation or dislocation). In the group with a FS of 20% and 25%, all hips were unstable with a FA of 40 degrees. Conclusion: In all specimens, a FS of 15% and FA of 40 degrees were stable on EUA. Varying combinations of increasing FS size and increasing FA were all unstable. This study provides data for a CT-based measurement to predict hip instability in the setting of posterior wall acetabular fractures based on FS and FA. More research is required to validate this data in a clinical setting. (C) 2021 Elsevier Ltd. All rights reserved.