交锁拉力螺钉设计在不稳定股骨转子间骨折髓内钉固定中的生物力学评价。

Biomechanical evaluation of interlocking lag screw design in intramedullary nailing of unstable pertrochanteric fractures.

机构信息

Institute of Biomechanics, Trauma Center Murnau, Murnau, Germany.

出版信息

J Orthop Trauma. 2013 Sep;27(9):483-90. doi: 10.1097/BOT.0b013e3182a1f54b.

DOI:10.1097/BOT.0b013e3182a1f54b

PMID:23860133

Abstract

OBJECTIVES

Intramedullary nails with special lag screw designs may provide improved mechanical performance and alleviate clinical problems. We hypothesize that the proximal design of trochanteric nails affects mechanical performance.

METHODS

Ten pairs of human cadaveric femora were implanted with 2 different short intramedullary nails without (Gamma3) and with an interlocking lag screw (Intertan). An unstable, multifragmentary, pertrochanteric fracture was created. Bones were tested in a cyclic testing protocol with increasing loads until failure simulating 1 leg stance. Stiffness, failure load, cycles to failure, and fracture gap movements were measured.

RESULTS

Initially stiffness of the interlocking lag screw nail was almost 40% larger (P = 0.005) compared with the noninterlocking nail. During the test, the difference in stiffness gradually decreased. Failure load (13%, P = 0.02) and cycles to failure (18%, P = 0.02) were larger for the interlocking nail construct. Rotation and varus collapse of the head were initially up to 84% lower (P = 0.013) for the interlocking technique. During the test, the rate of rotational instability gradually increased for both techniques.

CONCLUSIONS

The interlocking lag screw design reduced movement of the femoral head and relative movement between fracture fragments. Beyond that the trapezoidal nail design of the Intertan reduced toggling within the trochanteric area and prolonged survival. Although this study showed a decrease in the retention of stability over time, failure did not occur until the equivalent of 2-3 months of reduced physical activity in which healing may have occurred under normal clinical conditions.

摘要

目的

具有特殊螺纹钉设计的髓内钉可能提供更好的机械性能并缓解临床问题。我们假设股骨近端钉的设计会影响机械性能。

方法

10 对人体股骨标本植入 2 种不同的短髓内钉，一种不带（Gamma3）和一种带锁定螺纹钉（Intertan）。造成不稳定的、多节段的股骨转子下骨折。在模拟 1 条腿站立的递增负荷的循环测试方案中对骨骼进行测试，直至失效。测量刚度、失效负荷、失效循环数和骨折间隙运动。

结果

初始时，锁定螺纹钉的刚度几乎比非锁定钉大 40%（P = 0.005）。在测试过程中，刚度差异逐渐减小。锁定钉结构的失效负荷（13%，P = 0.02）和失效循环数（18%，P = 0.02）较大。初始时，头的旋转和内翻塌陷的幅度锁定技术降低了 84%（P = 0.013）。在测试过程中，两种技术的旋转不稳定性逐渐增加。

结论

锁定螺纹钉设计减少了股骨头的运动和骨折碎片之间的相对运动。除此之外，Intertan 的梯形钉设计减少了转子间区域的摆动，并延长了存活时间。尽管这项研究显示稳定性的保留随着时间的推移而降低，但直到相当于 2-3 个月的减少体力活动时才失效，在正常临床情况下可能已经发生了愈合。

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交锁拉力螺钉设计在不稳定股骨转子间骨折髓内钉固定中的生物力学评价。

Biomechanical evaluation of interlocking lag screw design in intramedullary nailing of unstable pertrochanteric fractures.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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