Minihane Keith P, Lee Chris, Ahn Chulhyun, Zhang Li-Qun, Merk Bradley R
Department of Orthopaedic Surgery, Northwestern University School of Medicine, 645 North Michigan Ave, Suite 910, Chicago, IL 60611, USA.
J Orthop Trauma. 2006 Sep;20(8):562-6. doi: 10.1097/01.bot.0000245684.96775.82.
The purpose of this study was to compare the biomechanical properties of posterolateral antiglide plating and lateral locked plating for fixation of displaced short oblique fractures of the fibula in osteoporotic bone.
Short oblique fractures of the distal fibula at the level of the syndesmosis were simulated with a fibular osteotomy and ligamentous sectioning in 18 paired fresh frozen ankles. The fractures were fixed with either a lateral locking plate with an independent lag screw or a posterolateral antiglide plate with a lag screw through the plate. The specimens were tested under a torsional load to failure. The torque to failure, angular rotation at failure, and construct stiffness of the two groups were compared.
The torque to failure and construct stiffness were significantly greater on the side with the posterolateral antiglide plate than on the side with the the lateral locking plate (P = 0.01 and 0.005, respectively).
The posterolateral antiglide plate demonstrated improved biomechanical stability as compared to the lateral locking plate in osteoporotic bone. In situations where fixation needs to be optimized, use of an antiglide plate may be favored over a lateral locking plate construct.
本研究旨在比较后外侧抗滑动钢板和外侧锁定钢板在骨质疏松性骨中固定腓骨移位短斜骨折的生物力学特性。
在18对新鲜冷冻踝关节中,通过腓骨截骨和韧带切断模拟下胫腓联合水平的腓骨远端短斜骨折。骨折分别用带独立拉力螺钉的外侧锁定钢板或带穿过钢板的拉力螺钉的后外侧抗滑动钢板固定。对标本施加扭转载荷直至破坏进行测试。比较两组的破坏扭矩、破坏时的角旋转和结构刚度。
后外侧抗滑动钢板一侧的破坏扭矩和结构刚度显著大于外侧锁定钢板一侧(P分别为0.01和0.005)。
与外侧锁定钢板相比,后外侧抗滑动钢板在骨质疏松性骨中表现出更好的生物力学稳定性。在需要优化固定的情况下,使用抗滑动钢板可能比外侧锁定钢板结构更受青睐。