An iterative finite element-based method for solving inverse problems in traction force microscopy

Condor M.; Garcia-Aznar J. M.

首页> 外文期刊>Computer Methods and Programs in Biomedicine: An International Journal Devoted to the Development, Implementation and Exchange of Computing Methodology and Software Systems in Biomedical Research and Medical Practice >An iterative finite element-based method for solving inverse problems in traction force microscopy

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An iterative finite element-based method for solving inverse problems in traction force microscopy

机译：基于迭代有限元的方法，用于解决牵引力显微镜中的逆问题

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Background and Objective: During the last years different model solutions were proposed for solving cell forces under different conditions. The solution relies on a deformation field that is obtained under cell relaxation with a chemical cocktail. Once the deformation field of the matrix is determined, cell forces can be computed by an inverse algorithm, given the mechanical properties of the matrix. Most of the Traction Force Microscopy (TFM) methods presented so far relied on a linear stress-strain response of the matrix. However, the mechanical response of some biopolymer networks, such as collagen gels is more complex. In this work, we present a numerical method for solving cell forces on non-linear materials.

机译：背景和目的：在过去几年中，提出了在不同条件下解决细胞力的不同模型解决方案。该解决方案依赖于用化学鸡尾酒在细胞松弛下获得的变形场。一旦确定了矩阵的变形字段，给定矩阵的机械特性，可以通过逆算法计算单元力。到目前为止呈现的大多数牵引力显微镜（TFM）方法依赖于基质的线性应力 - 应变响应。然而，一些生物聚合物网络的机械响应，例如胶原凝胶更复杂。在这项工作中，我们提出了一种用于在非线性材料上求解细胞力的数值方法。

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《Computer Methods and Programs in Biomedicine: An International Journal Devoted to the Development, Implementation and Exchange of Computing Methodology and Software Systems in Biomedical Research and Medical Practice》 |2019年第2019期|共9页
作者
Condor M.; Garcia-Aznar J. M.;
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作者单位

Univ Zaragoza Aragon Inst Engn Res Dept Mech Engn Zaragoza Spain;

Univ Zaragoza Aragon Inst Engn Res Dept Mech Engn Zaragoza Spain;

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原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
关键词
Finite element simulation; Inverse problem; Material non-linearity; Traction force microscopy;

机译：有限元模拟;反问题;材料非线性;牵引力显微镜;

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1. An iterative finite element-based method for solving inverse problems in traction force microscopy [J] . Condor M., Garcia-Aznar J. M. Computer Methods and Programs in Biomedicine: An International Journal Devoted to the Development, Implementation and Exchange of Computing Methodology and Software Systems in Biomedical Research and Medical Practice . 2019,第期

机译：基于迭代有限元的方法，用于解决牵引力显微镜中的逆问题
2. A finite element-based methodology for inverse problem of determining contact forces using measured displacements [J] . Jiangtao Songa, Randy J. Gub* Inverse Problems in Science and Engineering . 2012,第6期

机译：一种基于有限元的方法，用于使用测得的位移确定接触力的反问题
3. NON-REGULARISED INVERSE FINITE ELEMENT ANALYSIS FOR 3D TRACTION FORCE MICROSCOPY [J] . Munoz Jose J. International journal of numerical analysis and modeling . 2016,第5期

机译：3D牵引力显微镜的非调节逆有限元分析
4. USING ENTROPY FLOW IN INVERSE MODELING METHOD TO RECONCILE FINITE VOLUME AND FINITE DIFFERENCE NUMERICAL SOLVING METHOD BETWEEN TURBINE BLADES [C] . M. R. Mahpeykar, E. Yousefi Rad, M. R. Kianifar ASME International Mechanical Engineering Congress and Exposition . 2010

机译：逆建模方法中的熵流协调涡轮机叶片之间的有限体积和有限差分数值求解方法
5. Iterated regularization methods for solving inverse problems [D] . Mays, Nathaniel 2011

机译：解决逆问题的迭代正则化方法
6. Finite Element Analysis of Traction Force Microscopy: Influence of Cell Mechanics Adhesion and Morphology [O] . Rachel Zielinski, Cosmin Mihai, Douglas Kniss, -1

机译：牵引力显微镜的有限元分析：细胞力学粘附和形态的影响。
7. Finite Element-based Fast Force Recovery for 2.5D Traction Force Microscopy Experiments [O] . Jorge Peñas Alvaro, Gratessolle Philippe, Van Oosterwyck Hans 2014

机译：基于有限元的2.5D牵引力显微镜实验快速恢复力

An iterative finite element-based method for solving inverse problems in traction force microscopy

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