| 应用皮质支撑原理固定股骨颈骨折的生物力学研究 |
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| 引用本文: | 王立江,魏海强,郭连江,黎宁,彭阿钦.应用皮质支撑原理固定股骨颈骨折的生物力学研究[J].中华创伤杂志,2009,25(7). |
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| 作者姓名: | 王立江 魏海强 郭连江 黎宁 彭阿钦 |
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| 作者单位: | 河北医科大学第三医院创伤急救中心,石家庄,050051 |
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| 摘 要: | 目的 根据皮质支撑的方法 ,探讨应用空心螺钉固定股骨颈骨折的生物力学效果.方法 选择8具成人防腐股骨标本,用随机数字表法分成两组,每组4具,制成股骨颈骨折的模型.实验侧3枚空心螺钉采用皮质支撑方法 固定,对照侧采用非皮质支撑方法 固定.两组标本分别进行抗压试验和抗扭转试验. 结果 在抗压试验中,当压力为600 N和800 N时,皮质支撑组股骨头的位移分别为(0.677±0.135)mm和(0.907±0.132)mm,非皮质支撑组分别为(0.899±0.160)mm和(1.202±0.152)mm(P<0.05).内固定失败时,皮质支撑组承受的最大载荷为(2782±228)N,非皮质支撑组为(1950±281)N(P<0.01).在抗扭转试验中,扭转4°和6°时,皮质支撑组的扭矩分别为(10.406±1.515)Nm和(15.328±1.471)Nm,非皮质支撑组的扭矩分别为(6.628±1.163)Nm和(9.072±1.570)Nm,两者比较差异有统计学意义(P<0.01).内固定失败时,皮质支撑组和非皮质支撑组的最大扭矩分别为(25.437±5.213)Nm和(13.235±3.012)Nm(P<0.01).结论 根据皮质支撑理论使用空心螺钉固定股骨颈骨折能明显提高内固定的抗压和抗旋转能力.
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| 关 键 词: | 股骨颈骨折 生物力学 骨折固定术 内 |
Biomechanical study on femoral neck fracture fixation based on cortical screw support theory |
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| WANG Li-jiang,WEI Hai-qiang,GUO Lian-jiang,LI Ning,PENG A-qin.Biomechanical study on femoral neck fracture fixation based on cortical screw support theory[J].Chinese Journal of Traumatology,2009,25(7). |
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| Authors: | WANG Li-jiang WEI Hai-qiang GUO Lian-jiang LI Ning PENG A-qin |
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| Abstract: | Objective To evaluate the biomechanical effect of cortical screw support technique in fixation of the femoral neck fractures. Methods The models of subcapital femoral neck fracture were made in eight matched pairs of embamled cadaver femurs and decided into experiment group and control group (four pairs per group). The side of experiment group was fixed using three cannulated compression screws with cortical screw support and that of control group with conventional screw placement. The speci-mens in two groups were tested in aspects of torsion and axial loading. Results In axial load test at load of 600 N and 800 N, the displacements in cortical screw support group were (0.677±0.135) mm and (0.907±0.132) mm respectively, while those of femoral head in conventional screw placement group were (0.899±0.160) mm and (1.202±0.152) nun respectively (P <0.05). There was signifi-cant difference between the two groups (P < 0.05). The maximal vertical loading for failure of the fixa-tion was (2 782±228) N in cortical screw support group and (1 950±281) N in conventional screw placement group (P < 0.01). In torsibility test at 4° and 6° torsibility, the torque-moments of cortical screw support group were (10.406±1.515) Nm and (15.328 ±1.471) Nm respectively and those of conventional screw placement group (6.628±1.163) Nm and (9.072±1.570) Nm respectively, with statistical difference between two groups (P <0.01). The maximal torque-moment for failure of the fixa-tion was (25.437±5.213) Nm in cortical screw support group and (13.235±3.012) Nm in conven-tional screw placement group (P < 0.01). Conclusion Fixation of femoral neck fractures by using cortical screw support can significantly enhance anti-torsion and anti-compression of internal fixation. |
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| Keywords: | Femoral neck fractures Biomechanics Fracture fixation internal |
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