螺钉长度对采用掌侧锁定钢板固定的模拟骨质疏松性桡骨远端骨折稳定性的影响。
The effects of screw length on stability of simulated osteoporotic distal radius fractures fixed with volar locking plates.
作者信息
Wall Lindley B, Brodt Michael D, Silva Matthew J, Boyer Martin I, Calfee Ryan P
机构信息
Department of Orthopaedic Surgery, Washington University School of Medicine, St. Louis, MO 63110, USA.
出版信息
J Hand Surg Am. 2012 Mar;37(3):446-53. doi: 10.1016/j.jhsa.2011.12.013. Epub 2012 Feb 2.
PURPOSE
Volar plating for distal radius fractures has caused extensor tendon ruptures resulting from dorsal screw prominence. This study was designed to determine the biomechanical impact of placing unicortical distal locking screws and pegs in an extra-articular fracture model.
METHODS
We applied volar-locking distal radius plates to 30 osteoporotic distal radius models. We divided radiuses into 5 groups based on distal locking fixation: bicortical locked screws, 3 lengths of unicortical locked screws (abutting the dorsal cortex [full length], 75% length, and 50% length to dorsal cortex), and unicortical locked pegs. Distal radius osteotomy simulated a dorsally comminuted, extra-articular fracture. We determined each construct's stiffness under physiologic loads (axial compression, dorsal bending, and volar bending) before and after 1,000 cycles of axial conditioning and before axial loading to failure (2 mm of displacement) and subsequent catastrophic failure.
RESULTS
Cyclic conditioning did not alter the constructs' stiffness. Stiffness to volar bending and dorsal bending forces were similar between groups. Final stiffness under axial load was statistically equivalent for all groups: bicortical screws (230 N/mm), full-length unicortical screws (227 N/mm), 75% length unicortical screws (226 N/mm), 50% length unicortical screws (187 N/mm), and unicortical pegs (226 N/mm). Force at 2-mm displacement was significantly less for 50% length unicortical screws (311 N) compared with bicortical screws (460 N), full-length unicortical screws (464 N), 75% length unicortical screws (400 N), and unicortical pegs (356 N). Force to catastrophic fracture was statistically equivalent between groups, but mean values for pegs (749 N) and 50% length unicortical (702 N) screws were 16% to 21% less than means for bicortical (892 N), full-length unicortical (860 N), and 75% length (894 N) unicortical constructs.
CONCLUSIONS
Locked unicortical distal screws of at least 75% length produce construct stiffness similar to bicortical fixation. Unicortical distal fixation for extra-articular distal radius fractures should be entertained to avoid extensor tendon injury because this technique does not appear to compromise initial fixation.
CLINICAL RELEVANCE
Using unicortical fixation during volar distal radius plating may protect extensor tendons without compromising fixation.
目的
桡骨远端骨折掌侧钢板固定因背侧螺钉突出导致伸肌腱断裂。本研究旨在确定在关节外骨折模型中置入单皮质远端锁定螺钉和栓钉的生物力学影响。
方法
我们将掌侧锁定桡骨远端钢板应用于30个骨质疏松性桡骨远端模型。根据远端锁定固定方式将桡骨分为5组:双皮质锁定螺钉、3种长度的单皮质锁定螺钉(紧靠背侧皮质[全长]、背侧皮质长度的75%、背侧皮质长度的50%)和单皮质锁定栓钉。桡骨远端截骨模拟背侧粉碎性关节外骨折。我们在1000次轴向预加载前后以及轴向加载至失效(2mm位移)和随后的灾难性失效前,测定每种固定方式在生理负荷(轴向压缩、背侧弯曲和掌侧弯曲)下的刚度。
结果
循环预加载未改变固定方式的刚度。各组之间对掌侧弯曲和背侧弯曲力的刚度相似。所有组在轴向负荷下的最终刚度在统计学上相当:双皮质螺钉(230N/mm)、全长单皮质螺钉(227N/mm)、背侧皮质长度75%的单皮质螺钉(226N/mm)、背侧皮质长度50%的单皮质螺钉(187N/mm)和单皮质栓钉(226N/mm)。与双皮质螺钉(460N)、全长单皮质螺钉(464N)、背侧皮质长度75%的单皮质螺钉(400N)和单皮质栓钉(356N)相比,背侧皮质长度50%的单皮质螺钉在2mm位移时的力(311N)明显较小。各组之间灾难性骨折的力在统计学上相当,但栓钉(749N)和背侧皮质长度50%的单皮质螺钉(702N)的平均值比双皮质(892N)、全长单皮质(860N)和背侧皮质长度75%的单皮质(894N)固定方式的平均值低16%至21%。
结论
长度至少为75%的锁定单皮质远端螺钉产生的固定刚度与双皮质固定相似。对于桡骨远端关节外骨折,应考虑采用单皮质远端固定以避免伸肌腱损伤,因为该技术似乎不会影响初始固定。
临床意义
在桡骨远端掌侧钢板固定时使用单皮质固定可保护伸肌腱而不影响固定。
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