Patil Sunit, Mahon Andrew, Green Sarah, McMurtry Ian, Port Andrew
James Cook University Hospital, Middlesbrough, United Kingdom.
Knee. 2006 Jun;13(3):231-5. doi: 10.1016/j.knee.2006.03.003. Epub 2006 May 2.
There has been a recent trend towards using a raft of small diameter 3.5mm cortical screws for supporting depressed tibial plateau fractures (Schatzker type III). Our aim was to compare the biomechanical properties of a raft of 3.5 mm cortical screws with that of 6.5 mm cancellous screws in a synthetic bone model. Ten rigid polyurethane foam (sawbone) blocks, with a density simulating osteoporotic bone and ten blocks with a density simulating normal density bone were obtained. A Schatzker type III fracture was created in each block. The fracture fragments were then elevated and supported using two 6.5 mm cancellous screws in ten blocks and four 3.5 mm cortical screws in the remaining. The fractures were loaded using a Lloyd testing machine. The mean force needed to produce a depression of 5 mm was 700.8 N with the four-screw construct and 512.4 N with the two-screw construct in the osteoporotic model. This difference was highly statistically significant (p = 0.009). The mean force required to produce the same depression was 1878.2 N with the two-screw construct and 1938.2 N with the four-screw construct in the non-osteoporotic model. Though the difference was not statistically significant (p = 0.42), an increased fragmentation of the synthetic bone fragments was noticed with the two-screw construct but not with the four-screw construct. A raft of four 3.5 mm cortical screws is biomechanically stronger than two 6.5 mm cancellous screws in resisting axial compression in osteoporotic bone.
最近有一种趋势,即使用大量小直径3.5毫米皮质骨螺钉来支撑胫骨平台凹陷骨折(Schatzker III型)。我们的目的是在合成骨模型中比较大量3.5毫米皮质骨螺钉与6.5毫米松质骨螺钉的生物力学性能。获得了十个密度模拟骨质疏松骨的刚性聚氨酯泡沫(人工骨)块和十个密度模拟正常密度骨的块。在每个块中制造一个Schatzker III型骨折。然后在十个块中使用两枚6.5毫米松质骨螺钉,在其余块中使用四枚3.5毫米皮质骨螺钉来抬高和支撑骨折碎片。使用劳埃德试验机对骨折进行加载。在骨质疏松模型中,四螺钉结构产生5毫米凹陷所需的平均力为700.8牛,两螺钉结构为512.4牛。这种差异具有高度统计学意义(p = 0.009)。在非骨质疏松模型中,产生相同凹陷所需的平均力,两螺钉结构为1878.2牛,四螺钉结构为1938.2牛。尽管差异无统计学意义(p = 0.42),但两螺钉结构导致合成骨碎片碎裂增加,而四螺钉结构则没有。在骨质疏松骨中抵抗轴向压缩时,四枚3.5毫米皮质骨螺钉的组合在生物力学上比两枚6.5毫米松质骨螺钉更强。
