T1ρ-based fibril-reinforced poroviscoelastic constitutive relation of human articular cartilage using inverse finite element technology

机译：基于T1ρ的人关节软骨纤维原纤维增强的粘弹性本构关系

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BackgroundMapping of T1ρ relaxation time is a quantitative magnetic resonance (MR) method and is frequently used for analyzing microstructural and compositional changes in cartilage tissues. However, there is still a lack of study investigating the link between T1ρ relaxation time and a feasible constitutive relation of cartilage which can be used to model complicated mechanical behaviors of cartilage accurately and properly.

机译：T1ρ弛豫时间的映射是一种定量磁共振（MR）方法，经常用于分析软骨组织的微结构和组成变化。然而，仍然缺乏研究T1ρ弛豫时间与可行的软骨本构关系之间的联系的研究，这些联系可用于准确，正确地模拟复杂的软骨力学行为。

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期刊名称 Quantitative Imaging in Medicine and Surgery
作者
Chao Wan; Liang Ge; Richard B. Souza; Simon Y. Tang; Tamara Alliston; Zhixiu Hao; Xiaojuan Li;
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年(卷),期 2019(9),3
年度 2019
页码 359–370
总页数 13
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1. T 1ρ -based fibril-reinforced poroviscoelastic constitutive relation of human articular cartilage using inverse finite element technology [J] . Chao Wan, Liang Ge, Richard B. Souza, Quantitative Imaging in Medicine and Surgery . 2019,第3期

机译：逆有限元技术，T1ρ基于纤维增强的纤维增强的Poroviscoelastic组织构成关系
2. Stresses in the local collagen network of articular cartilage: a poroviscoelastic fibril-reinforced finite element study [J] . Wilson W., van Donkelaar CC., van Rietbergen B., Journal of Biomechanics . 2004,第3期

机译：关节软骨局部胶原网络中的应力：多孔弹性纤维原纤维增强的有限元研究
3. Determination of nonlinear fibre-reinforced biphasic poroviscoelastic constitutive parameters of articular cartilage using stress relaxation indentation testing and an optimizing finite element analysis [J] . SeifzadehA., OguamanamD.C.D., TrutiakN., 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 . 2012,第2期

机译：应力松弛压痕试验和优化有限元分析确定非线性纤维增强的双相软骨黏弹性本构参数
4. POROVISCOELASTIC PROPERTIES OF MOUSE CARTILAGE FROM INVERSE FINITE ELEMENTS AND INDENTATION [C] . Sidharth Chiravarambath, Narendra K. Simha, Jack L. Lewis ASME Bioengineering Conference . 2007

机译：从逆有限元和压痕的鼠标软骨的Poroviscoelastic属性
5. Finite Element Modeling of Articular Cartilage at different length scales. [D] . Chiravarambath, Sidharth Saktan. 2012

机译：不同长度尺度的关节软骨的有限元建模。
6. A fast quadrature-based numerical method for the continuous spectrum biphasic poroviscoelastic model of articular cartilage [O] . Michael Stuebner, Mansoor A. Haider -1

机译：一种快速正交的关节软骨Curoviscoelastic模型的基于快速正交的数值方法
7. T1ρ-based fibril-reinforced poroviscoelastic constitutive relation of human articular cartilage using inverse finite element technology [O] . Chao Wan, Liang Ge, Richard B. Souza, 2019

机译：基于T1ρ的原纤维增强的偏心式CulticiscoScoStup，使用逆有限元技术

T1ρ-based fibril-reinforced poroviscoelastic constitutive relation of human articular cartilage using inverse finite element technology

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