在胸腰椎 AIS 的最佳三维矫正中，校正目标比螺钉模式和密度的影响更大：一项生物力学研究。

Correction objectives have higher impact than screw pattern and density on the optimal 3D correction of thoracic AIS: a biomechanical study.

机构信息

Department of Mechanical Engineering, Polytechnique Montreal, Downtown Station, P.O. Box 6079, Montreal, QC, H3C 3A7, Canada.

Research Center, Sainte-Justine University Hospital Center, 3175, Cote Sainte-Catherine Road, Montreal, QC, H3T 1C5, Canada.

出版信息

Spine Deform. 2021 May;9(3):655-664. doi: 10.1007/s43390-020-00275-2. Epub 2021 Jan 26.

DOI:10.1007/s43390-020-00275-2

PMID:33501602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8064979/

Abstract

STUDY DESIGN

Assessment of screw pattern, implant density (ID), and optimization of 3D correction through computer-based biomechanical models.

OBJECTIVE

To investigate how screw pattern and ID affect intraoperative 3D correction of thoracic curves in adolescent idiopathic scoliosis, and how different correction objectives impact the optimal screw pattern. Screw pattern, ID, correction objectives and surgical strategies for posterior fusion of AIS are highly variable among experienced surgeons. The "optimal" instrumentation remains not well defined.

METHODS

10 patient-specific multibody models of representative adolescent idiopathic scoliosis Lenke 1A cases were built and used to compare alternative virtual correction surgeries. Five screw patterns and IDs (average: 1.6 screws/instrumented level, range: 1.2-2) were simulated, considering concave rod rotation, en bloc derotation, and compression/distraction as primary correction maneuvers. 3D correction descriptors were quantified in the coronal, sagittal and transverse planes. An objective function weighting the contribution of intraoperative 3D correction and mobility allowed rating of the outcomes of the virtual surgeries. Based on surgeon-dependent correction objectives, the optimal result among the simulated constructs was identified.

RESULTS

Low-density (ID ≤ 1.4) constructs provided equivalent 3D correction compared to higher (ID ≥ 1.8) densities (average differences ranging between 2° and 3°). The optimal screw pattern varied from case to case, falling within the low-density screw category in 14% of considered scenarios, 73% in the mid-density (1.4 < ID < 1.8) and 13% in the high-density. The optimal screw pattern was unique in five cases; multiple optima were found in other cases depending on the considered correction objectives.

CONCLUSIONS

Low-density screw patterns provided equivalent intraoperative 3D correction to higher-density patterns. Simulated surgeon's choice of correction objectives had the greatest impact on the selection of the optimal construct for 3D correction, while screw density and ID had a limited impact.

LEVEL OF EVIDENCE

N/A.

摘要

研究设计

通过基于计算机的生物力学模型评估螺钉模式、植入物密度（ID）以及 3D 矫正的优化。

目的

研究螺钉模式和 ID 如何影响青少年特发性脊柱侧凸胸椎曲线的术中 3D 矫正，以及不同的矫正目标如何影响最佳螺钉模式。在经验丰富的外科医生中，AIS 后路融合的螺钉模式、ID、矫正目标和手术策略存在很大差异。“最佳”器械仍未明确定义。

方法

构建了 10 例代表性青少年特发性脊柱侧 Lenke 1A 病例的患者特定多体模型，并用于比较替代的虚拟矫正手术。模拟了 5 种螺钉模式和 ID（平均：每个节段 1.6 颗螺钉，范围：1.2-2），考虑了凹侧杆旋转、整块去旋转和压缩/拉伸作为主要矫正手段。在冠状面、矢状面和横断面量化了 3D 矫正描述符。一个加权术中 3D 矫正和活动度贡献的目标函数允许对虚拟手术的结果进行评分。基于外科医生依赖的矫正目标，确定模拟结构中最佳的结果。

结果

低密度（ID≤1.4）结构与高密度（ID≥1.8）结构提供了相当的 3D 矫正（平均差异在 2°到 3°之间）。最佳螺钉模式因病例而异，在考虑的情况下有 14%落在低密度螺钉类别中，73%在中密度（1.4<ID<1.8）类别中，13%在高密度类别中。在 5 个病例中，最佳螺钉模式是唯一的；在其他病例中，根据考虑的矫正目标，发现了多个最佳选择。

结论

低密度螺钉模式提供了与高密度模式相当的术中 3D 矫正。模拟外科医生选择的矫正目标对 3D 矫正最佳构建的选择影响最大，而螺钉密度和 ID 的影响有限。

证据水平

无。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f947/8064979/6ac2abcec082/43390_2020_275_Fig1_HTML.jpg

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在胸腰椎 AIS 的最佳三维矫正中，校正目标比螺钉模式和密度的影响更大：一项生物力学研究。

Correction objectives have higher impact than screw pattern and density on the optimal 3D correction of thoracic AIS: a biomechanical study.

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

LEVEL OF EVIDENCE

研究设计

目的

方法

结果

结论

证据水平

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