Technical aspects of rod-insertion forceps (persuader) application in reducing construct failure after lumbar spine fusion surgery: a biomechanical cadaveric study in Germany.

IF 2.3 Q2 ORTHOPEDICS

Asian Spine Journal Pub Date : 2024-08-01 Epub Date: 2024-08-08 DOI:10.31616/asj.2024.0073

Nikolaus Kernich, Vincent J Heck, Nadine Ott, Andreas Prescher, Peer Eysel, Juan Manuel Vinas-Rios

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Abstract

Study design: A prospective experimental study.

Purpose: This biomechanical in vitro study aimed to examine the extent to which the use of a rod persuader (RP) leads to additional mechanical stress on the screw-rod system and determine its influence on the bony anchoring of primary pedicle screws.

Overview of literature: Degenerative spine diseases and deformities are the most common indications for the stabilization and fusion of spinal segments. The pedicle screw-rod system is considered the gold standard for dorsal stabilization, and an RP is also increasingly being considered to fit the spondylodesis material.

Methods: Ten lumbar spines from body donors were examined. Bisegmental dorsal spinal lumbar interbody fusion of the L3-L5 segments was performed using a pedicle screw-rod system (ROCCIA Multi-LIF Cage; Silony Medical, Germany). In group 1, the titanium rod was inserted without tension, whereas in group 2, the rod was attached to the pedicle screws at the L4 and L5 levels, creating a 5-mm gap. To attach the rod, the RP was used to press the rod into the pedicle screw. The rod was left in place for 30 minutes and then removed.

Results: The rod reduction technique significantly increased the mechanical load on the overall construct measured by strain gauges (p<0.05) and resulted in outright implant failure with pedicle screw pullout in 88.9%.

Conclusions: In cases where the spondylodesis material is not fully attached within the pedicle screw, an RP can be used with extreme caution, particularly in osteoporotic bones, to avoid pedicle screw avulsion and screw anchor failure.

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腰椎融合手术后应用杆插入钳（劝导器）减少构建失败的技术问题：德国的一项尸体生物力学研究。

研究设计目的：这一生物力学体外研究旨在探讨使用椎弓根螺钉固定器（RP）会在多大程度上对螺钉-螺钉系统造成额外的机械应力，并确定其对初级椎弓根螺钉骨性锚定的影响：脊柱退行性疾病和畸形是稳定和融合脊柱节段的最常见适应症。椎弓根螺钉-连杆系统被认为是背侧稳定的黄金标准，RP也越来越多地被认为是适合脊柱成形术的材料：方法：对人体捐献者的十根腰椎进行了检查。使用椎弓根螺钉-杆系统（ROCCIA Multi-LIF Cage；德国 Silony Medical 公司）对 L3-L5 节段进行双节段背侧脊柱腰椎椎间融合术。在第一组中，钛棒在无张力的情况下插入，而在第二组中，钛棒与 L4 和 L5 水平的椎弓根螺钉相连，形成 5 毫米的间隙。为了连接钛棒，使用 RP 将钛棒压入椎弓根螺钉。杆放置30分钟后取出：结果：杆缩减技术明显增加了应变片测量到的整体结构的机械负荷（p结论：在椎弓根螺钉内未完全附着脊柱矫正材料的情况下，可以非常谨慎地使用 RP，尤其是在骨质疏松的骨骼中，以避免椎弓根螺钉撕脱和螺钉锚失败。

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