Medial Plating of Pauwels Type III Femoral Neck Fractures Decreases Shear and Angular Displacement Compared with a Derotational Screw
Chima D. Nwankwo, Patrick J. Schimoler, Victor E. Greco, Alexander Kharlamov, Edward R. Westrick, Mark Carl Miller
Abstract
OBJECTIVES: The purpose of this mechanical study was to compare 2 methods of augmented stabilization of Pauwels type III femoral neck fractures. METHODS: Ten matched pairs of young cadaveric femurs were cut 22 cm distal to the lesser trochanter. All specimens received a 70-degree osteotomy, which was stabilized with a 135-degree sliding hip screw. One of each pair received augmented fixation with a 6.5 mm fully threaded cannulated screw. The other specimen in the matched pair had additional fixation with a 3.5 mm 5-hole tubular plate placed at the inferior-medial femoral neck. Each specimen was tested under cyclic axial loading conditions (5000 cycles between 200 and 1400 N at 2 cycles/sec) and subsequently loaded to failure. The angular displacement (varus), interfragmentary (shear) displacement, and failure loads were calculated. RESULTS: In the augmented plate group, 7 specimens failed by angular displacement and 3 failed by shear displacement. In the augmented screw group, 8 specimens failed by angular displacement and 2 by shear displacement. The plate group was found to have significantly less angular displacement, regardless of completed cycles, than the augmented screw group (0.75 ± 0.35 degrees vs. 2.15 ± 1.99 degrees averaged across completed cycles, P < 0.01). Similarly, the plate group was found to have significantly less shear displacement, regardless of completed cycles, than the augmented screw group (0.77 ± 0.70 mm vs. 1.22 ± 0.92 mm averaged across completed cycles, P = 0.01). The average failure load of the plate group (4930 ± 1578 N) was also larger but not significantly different from the screw group (3824 ± 2140 N), P = 0.12. CONCLUSIONS: Augmenting sliding hip screw stabilization of a Pauwels type III fracture with a medial plate applied to the femoral neck significantly decreases angular displacement and shear displacement compared with augmentation with a derotational screw.