Abstract
Closed reduction and internal fixation with three cannulated compression screws is a common method for treating femoral neck fractures in young and middle-aged patients. Protocols including the inverted triangle configuration and dispersion of the screws still needed further supports. The purpose of this study was to explore a novel oblique triangle configuration (OTC) of three screws in fixing femoral neck fractures based on the morphology of the femoral neck isthmus (FNI). The computer-aided design modules were used to explore the ideal spatial configuration with largest triangle by three parallel screws. A univariate evaluation model was established based on the oval-like cross-section of the FNI. When the three screws were positioned by the OTC, Inverted Equilateral Triangle Configuration (IETC), and the Maximum Area Inverted Isosceles Triangle Configuration (MA-IITC) respectively, the proportion of area and circumference in the cross-section of FNI and the changing trend of proportion were compared under various torsion angles, eccentricity, and cross-sectional area of FNI. The area and circumference ratios of the parallel screws using the OTC method were significantly higher than in the IETC and MA-IITC groups. In the univariate evaluation model, the OTC area ratio and circumference ratio remained stable under the different femoral neck torsion angles, FNI cross-sectional area, and eccentricity. The OTC method provided an ideal spatial configuration for the FNA fixation with the largest area using three parallel screws. The position of the posterior screw was also away from the metaphyseal artery, potentially reducing the possibility of vascular injury and screw penetrating.
Highlights
Closed reduction and internal fixation with three cannulated compression screws is a common method for treating femoral neck fractures in young and middle-aged patients
The results show that the values of Oblique Triangle (OT) were significantly greater than Inverted Equilateral Triangle (IET) and Maximum Area Inverted Isosceles Triangle (MA-IIT), and there was little difference between IET and MA-IIT groups
The area and perimeter of OT in this model remained stable with the position change of point A (A1, A2, A3), the area and perimeter of IET and MA-IIT gradually decrease when point A moves from front to back (Fig. 4)
Summary
Closed reduction and internal fixation with three cannulated compression screws is a common method for treating femoral neck fractures in young and middle-aged patients. The purpose of this study was to explore a novel oblique triangle configuration (OTC) of three screws in fixing femoral neck fractures based on the morphology of the femoral neck isthmus (FNI). In the univariate evaluation model, the OTC area ratio and circumference ratio remained stable under the different femoral neck torsion angles, FNI cross-sectional area, and eccentricity. The morphology of the femoral neck isthmus (FNI) has a significant impact on the spatial configuration of the implanted screws when performing the internal fixation of the femoral neck fracture. This study was aimed to explore the optimal spatial configuration of the cannulated three parallel screws for femoral neck fracture in the principles of cortical support and the maximum area of the inscribed triangle e llipse[15–17]. The tendency of the area and circumference ratio of different triangular configurations was analyzed in various torsion angles, cross-sectional areas, and eccentricities of ellipse models
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