Biomechanical analysis of a new expandable vertebral body replacement combined with a new polyaxial antero-lateral plate and/or pedicle screws and rods

Benjamin Ulmar; Stefanie Erhart; Stefan Unger; Kuno Weise; Werner Schmoelz

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Biomechanical analysis of a new expandable vertebral body replacement combined with a new polyaxial antero-lateral plate and/or pedicle screws and rods

机译：结合新的多轴前外侧板和/或椎弓根螺钉和杆的新型可膨胀椎体置换的生物力学分析

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Purpose Restoration of the anterior spinal profile and regular load-bearing is the main goal treating anterior spinal defects in case of fracture. Over the past years, development and clinical usage of cages for vertebral body replacement have increased rapidly. For an enhanced stabilization of rotationally unstable fractures, additional antero-lateral implants are common. The purpose of this study was the evaluation of the biomechanical behaviour of a recently modified, in situ distractible vertebral body replacement (VBR) combined with a newly developed antero-lateral polyaxial plate and/or pedicle screws and rods using a full corpectomy model as fracture simulation.

机译：目的修复前部脊柱轮廓并定期承重是治疗骨折时前部脊柱缺损的主要目标。在过去的几年中，用于椎体置换的笼的开发和临床使用迅速增加。为了增强旋转不稳定骨折的稳定性，通常需要额外的前外侧植入物。这项研究的目的是使用完整的全切除模型作为骨折，评估最近改良的原位可分散性椎体置换（VBR）结合新开发的前外侧多轴钢板和/或椎弓根螺钉和棒的生物力学行为。模拟。

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《European Spine Journal》 |2012年第3期|p.546-553|共8页
作者
Benjamin Ulmar; Stefanie Erhart; Stefan Unger; Kuno Weise; Werner Schmoelz;
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1. Biomechanical analysis of a new expandable vertebral body replacement combined with a new polyaxial antero-lateral plate and/or pedicle screws and rods. [J] . Benjamin Ulmar, Stefanie Erhart, Stefan Unger, European spine journal: official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society . 2012,第3期

机译：结合新的多轴前外侧板和/或椎弓根螺钉和杆的新型可膨胀椎体置换的生物力学分析。
2. Biomechanical comparison of anterolateral plate, lateral plate, and pedicle screws-rods for enhancing anterolateral lumbar interbody cage stabilization. [J] . Bozkus H, Chamberlain RH, Perez Garza LE, Spine . 2004,第6期

机译：前外侧板，外侧板和椎弓根螺钉-杆对增强前外侧腰椎椎间融合器稳定性的生物力学比较。
3. In Vitro Biomechanical Analysis of a New Lumbar Low-Profile Locking Screw-Plate Construct Versus a Standard Top-Loading Cantilevered Pedicle Screw-Rod ConstructTechnical Report [J] . Crawford Neil R., Do?an ?eref, Yüksel K. Zafer, Clinical neurosurgery. . 2010,第2期

机译：新型腰椎低断面锁定螺钉板结构与标准顶部装载悬臂椎弓根螺钉杆结构的体外生物力学分析技术报告
4. Biomechanical Effects of Polyaxial Screws on One Spinal Motion Segment with the Interbody Cage - a Synthetic Model [C] . Hsiang-Ho Chen, Shih-Hao Chen, Yu-Hao Lin, The 2nd World Congress for Chinese Biomedical Engineers . 2004

机译：椎间融合器多轴螺钉对一个脊柱运动节段的生物力学效应-综合模型。
5. Biomechanical investigation of the factors related to pedicle screw fixation strength [D] . Mehmanparast Nodehi, Hedayeh. 2015

机译：椎弓根螺钉固定强度因素的生物力学研究
6. Biomechanical analysis of a new expandable vertebral body replacement combined with a new polyaxial antero-lateral plate and/or pedicle screws and rods [O] . Benjamin Ulmar, Stefanie Erhart, Stefan Unger, 2012

机译：结合新的多轴前外侧板和/或椎弓根螺钉和杆的新型可膨胀椎体置换的生物力学分析
7. Biomechanical analysis of a new expandable vertebral body replacement combined with a new polyaxial antero-lateral plate and/or pedicle screws and rods [O] . Ulmar, Benjamin, Weise, Kuno 2012

机译：结合新的多轴前外侧板和/或椎弓根螺钉和杆的新型可膨胀椎体置换的生物力学分析

Biomechanical analysis of a new expandable vertebral body replacement combined with a new polyaxial antero-lateral plate and/or pedicle screws and rods

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