横断部分骶骨切除术对骶髂关节的生物力学影响:骶髂关节不稳定边界的体外人体尸体研究
Biomechanical effects of transverse partial sacrectomy on the sacroiliac joints: an in vitro human cadaveric investigation of the borderline of sacroiliac joint instability.
作者信息
Yu Binsheng, Zheng Zhaomin, Zhuang Xinming, Chen Hui, Xie Denghui, Luk K D K, Lu W W
机构信息
Department of Spine Surgery, First Affiliated Hospital of Sun Yat-sen University, Guangzhou, China.
出版信息
Spine (Phila Pa 1976). 2009 Jun 1;34(13):1370-5. doi: 10.1097/BRS.0b013e3181a3d440.
STUDY DESIGN
In vitro laboratory study.
OBJECTIVE
To measure the effects of transverse partial sacrectomies on the compressive and torsional stiffness of the sacroiliac joints.
SUMMARY OF BACKGROUND DATA
Surgical treatment for sacral tumor of different location and nature includes partial or complete sacrectomy. Though the biomechanical investigations about the local destructive force of residual sacrum after partial sacrectomy have been reported, biomechanical properties of the residual sacroiliac joints after different transverse partial sacrectomies remain unknown.
METHODS
Seven fresh human cadaveric L5-pelves with normal bone mineral density were used in this study. Each specimen was tested in intact condition first, followed by a series of segmental transverse partial sacrectomies: under S2 partial sacrectomy (U-S2); U-(1/2)S2; U-S1; U-(1/2)S1; and right side sacroiliac joint resection (one-side). A material testing machine was used to apply 800 N compression and 7 Nm torsion loads through the L5/S1 joint. The resected dimensional area of sacroiliac joints and structural stiffness of the residual sacroiliac joints were analyzed.
RESULTS
Average percentages of the resected area of sacroiliac joints were 8.4% in U-S2, 15.1% in U-(1/2)S2, 24.8% in U-S1, and 72.3% in U-(1/2)S1, respectively. In compression U-S2 approximately one-side preserved 98.7%, 97.1%, 94.4%, 82.9%, and 55.2% of the initial stiffness of the sacroiliac joint, respectively. No significant differences were detected among intact, U-S2, U-(1/2)S2, and U-S1 (P > 0.05). However, compressive stiffness of U-(1/2)S1 and one-side was markedly less than that of intact, U-S2, and U-(1/2)S2 (P < 0.05). In Torsion U-S2 approximately one-side preserved 90.7%, 88.5%, 81.9%, 71.9%, and 44.5% of the initial sacroiliac joint stiffness, respectively. No significant differences were demonstrated among intact, U-S2, and U-(1/2)S2 (P > 0.05); However, U-S1, U-(1/2)S1 and one-side exhibited significantly less torsional stiffness than intact and U-S2 (P < 0.05).
CONCLUSION
In surgical treatment of distal sacral tumor, transverse partial sacrectomy involving S1 could result in rotational instability, and the resection level beyond (1/2)S1 further led to compressive instability. When the sacrectomy was at or above the S1/2 level, local reconstruction should be considered.
研究设计
体外实验室研究。
目的
测量横向部分骶骨切除术对骶髂关节压缩刚度和扭转刚度的影响。
背景数据总结
不同位置和性质的骶骨肿瘤的手术治疗包括部分或完全骶骨切除术。虽然已有关于部分骶骨切除术后残余骶骨局部破坏力的生物力学研究报道,但不同横向部分骶骨切除术后残余骶髂关节的生物力学特性仍不清楚。
方法
本研究使用了7具具有正常骨矿物质密度的新鲜人体L5-骨盆尸体标本。每个标本首先在完整状态下进行测试,然后进行一系列节段性横向部分骶骨切除术:S2以下部分骶骨切除术(U-S2);U-(1/2)S2;U-S1;U-(1/2)S1;以及右侧骶髂关节切除术(单侧)。使用材料试验机通过L5/S1关节施加800N的压缩力和7Nm的扭转力。分析骶髂关节的切除尺寸面积和残余骶髂关节的结构刚度。
结果
骶髂关节切除面积的平均百分比分别为:U-S2为8.4%,U-(1/2)S2为15.1%,U-S1为24.8%,U-(1/2)S1为72.3%。在压缩试验中,U-S2、U-(1/2)S2、U-S1、U-(1/2)S1和单侧分别保留了骶髂关节初始刚度的约98.7%、97.1%、94.4%、82.9%和55.2%。完整组、U-S2组、U-(1/2)S2组和U-S1组之间未检测到显著差异(P>0.05)。然而,U-(1/2)S1组和单侧的压缩刚度明显低于完整组、U-S2组和U-(1/2)S2组(P<0.05)。在扭转试验中,U-S2、U-(1/2)S2、U-S1、U-(1/2)S1和单侧分别保留了骶髂关节初始刚度的约90.7%、88.5%、81.9%、71.9%和44.5%。完整组、U-S2组和U-(1/2)S2组之间未显示出显著差异(P>0.05);然而,U-S1组、U-(1/2)S1组和单侧的扭转刚度明显低于完整组和U-S2组(P<0.05)。
结论
在骶骨远端肿瘤的手术治疗中,涉及S1的横向部分骶骨切除术可能导致旋转不稳定,而超过(1/2)S1的切除水平会进一步导致压缩不稳定。当骶骨切除术处于或高于S1/2水平时应考虑局部重建。
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