F.E.M. Stress-Investigation of Scolios Apex.

Q3 Medicine

Open Biomedical Engineering Journal Pub Date : 2018-07-31 DOI:10.2174/1874120701812010051

A Daghighi, H Tropp, N Dahlström, A Klarbring

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引用次数: 2

Abstract

Background: In scoliosis, kypholordos and wedge properties of the vertebrae should be involved in determining how stress is distributed in the vertebral column. The impact is logically expected to be maximal at the apex.

Aim: To introduce an algorithm for constructing artificial geometric models of the vertebral column from DICOM stacks, with the ultimate aim to obtain a formalized way to create simplistic models, which enhance and focus on wedge properties and relative tilting.

Material/methods: Our procedure requires parameter extraction from DICOM image-stacks (with PACS,IDS-7), mechanical FEM-modelling (with Matlab and Comsol). As a test implementation, models were constructed for five patients with thoracal idiopathic scoliosis with varying apex rotation. For a selection of load states, we calculated a response variable which is based upon distortion energy.

Results: For the test implementation, pairwise t-tests show that our response variable is non-trivial and that it is chiefly sensitive to the transversal stresses (transversal stresses where of main interest to us, as opposed to the case of additional shear stresses, due to the lack of explicit surrounding tissue and ligaments in our model). Also, a pairwise t-test did not show a difference (n = 25, p-value≈0.084) between the cases of isotropic and orthotropic material modeling.

Conclusion: A step-by-step description is given for a procedure of constructing artificial geometric models from chest CT DICOM-stacks, such that the models are appropriate for semi-global stress-analysis, where the focus is on the wedge properties and relative tilting. The method is inappropriate for analyses where the local roughness and irregularities of surfaces are wanted features. A test application hints that one particular load state possibly has a high correlation to a certain response variable (based upon distortion energy distribution on a surface of the apex), however, the number of patients is too small to draw any statistical conclusions.

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F.E.M.脊柱侧弯顶点应力调查。

背景：在脊柱侧弯中，脊柱的后凸和楔形特性应参与确定应力在脊柱中的分布。从逻辑上讲，这种影响在顶点处是最大的。目的：介绍一种从DICOM堆栈构建脊柱人工几何模型的算法，最终目的是获得一种形式化的方法来创建简单的模型，该方法增强并关注楔形特性和相对倾斜。材料/方法：我们的程序需要从DICOM图像堆栈中提取参数（使用PACS、IDS-7），机械FEM建模（使用Matlab和Comsol）。作为一项测试实施，为五名具有不同顶点旋转的胸廓特发性脊柱侧凸患者构建了模型。对于负载状态的选择，我们计算了一个基于畸变能量的响应变量。结果：对于测试实施，成对t检验表明，我们的响应变量是非平凡的，它主要对横向应力敏感（横向应力是我们主要感兴趣的地方，而不是额外的剪切应力，因为我们的模型中缺乏明确的周围组织和韧带）。此外，在各向同性和正交各向异性材料建模的情况下，成对t检验没有显示差异（n=25，p值≈0.084）。结论：逐步描述了从胸部CT DICOM堆栈构建人工几何模型的过程，使这些模型适用于半全局应力分析，其中重点是楔形特性和相对倾斜。该方法不适用于需要表面局部粗糙度和不规则性的分析。测试应用表明，一种特定的负荷状态可能与某个响应变量具有高度相关性（基于顶点表面上的畸变能量分布），然而，患者数量太少，无法得出任何统计结论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Open Biomedical Engineering Journal Medicine-Medicine (miscellaneous)

CiteScore

1.60

自引率

0.00%

发文量