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INTEGRATING QPLM AND BIOMECHANICAL TEST DATA WITH AN ANISOTROPIC FIBER DISTRIBUTION MODEL AND IN VITRO REGULATION OF ARTICULAR CARTILAGE FIBER MODULUS

机译：将QPLM和生物力学测试数据集成，具有各向异性纤维分布模型和关节软骨纤维模量的体外调节

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Articular cartilage (AC) metabolism and mechanical properties are regulated by in vitro culture with transforming growth factor-beta 1 (TGF-β1) and insulin-like growth factor-1 (IGF-1) [1]. In general, TGF-β1 maintains tissue size accompanied by a maintenance or increase in tensile and compressive moduli and a maintenance or decrease of compressive Poisson's ratios while IGF-1 produces significant tissue expansion at the expense of reduced tensile and compressive moduli and increased compressive Poisson's ratios [1,2]. The goal of this study was to integrate experimental data including AC mechanical properties, biochemical contents including overall collagen (COL) volume fraction, and microstructural measures of COL fiber distribution with a continuum mixture model to predict how COL fiber modulus changes in vitro with TGF-β1 and IGF-1 treatment.

机译：用转化生长因子-β1（TGF-β1）和胰岛素样生长因子-1（IGF-1）[1]通过体外培养来调节关节软骨（AC）代谢和机械性能。通常，TGF-β1保持组织大小伴随着维护或增加拉伸和压缩模量的维护或增加，而IGF-1以减少的拉伸和压缩模育和增加的压缩泊松产生显着的组织扩张和增加的组织扩张。比率[1,2]。本研究的目的是将包括AC机械性能，生物化学含量的实验数据整合，包括总胶原（COL）体积分数，以及Col纤维分布的微观结构测量与连续含量模型，预测COL纤维模量如何随着TGF的体外变化。 β1和IGF-1治疗。

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《ASME Bioengineering Conference》|2014年||共2页
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Michael E. Stender; Christopher B. Raub; Kevin A. Yamauchi; Reza Shirazi; Pasquale Vena; Robert L. Sah; Scott J. Hazelwood; Stephen M. Klisch;
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1. Integrating qPLM and biomechanical test data with an anisotropic fiber distribution model and predictions of TGF- β 1 and IGF-1 regulation of articular cartilage fiber modulus [J] . Stender M.E., Raub C.B., Yamauchi K.A., Biomechanics and modeling in mechanobiology . 2013,第6期

机译：将qPLM和生物力学测试数据与各向异性纤维分布模型集成在一起，并预测TGF-β1和IGF-1调节关节软骨纤维模量
2. Poroviscoelastic finite element model including continuous fiber distribution for the simulation of nanoindentation tests on articular cartilage [J] . M. Taffetani, M. Griebel, D. Gastaldi, Journal of the mechanical behavior of biomedical materials . 2014,第Null期

机译：包含连续纤维分布的多孔黏弹性有限元模型，用于模拟关节软骨的纳米压痕测试
3. Finite Element Analyses of Articular Cartilage Models Considering Depth-Dependent Elastic Modulus and Collagen Fiber Network [J] . Natsuko HOSODA, Nobuo SAKAI, Teruo MURAKAMI, Journal of Biomechanical Science and Engineering . 2010,第4期

机译：考虑深度依赖弹性模量和胶原纤维网络的关节软骨模型的有限元分析
4. INTEGRATING QPLM AND BIOMECHANICAL TEST DATA WITH AN ANISOTROPIC FIBER DISTRIBUTION MODEL AND IN VITRO REGULATION OF ARTICULAR CARTILAGE FIBER MODULUS [C] . Michael E. Stender, Christopher B. Raub, Kevin A. Yamauchi, ASME bioengineering conference . 2014

机译：将QPLM和生物力学测试数据与各向异性纤维分布模型集成在一起，并体外调节关节软骨纤维模量
5. Biomechanical regulation of articular cartilage metabolism of proteoglycan 4 and articular surface integrity [D] . Nugent, Gayle E. 2006

机译：蛋白聚糖4的关节软骨代谢和关节表面完整性的生物力学调节
6. Integrating qPLM and biomechanical test data with an anisotropic fiber distribution model and predictions of TGF-β1 and IGF-1 regulation of articular cartilage fiber modulus [O] . Michael E. Stender, Christopher B. Raub, Kevin A. Yamauchi, -1

机译：将QPLM和生物力学测试数据与各向异性纤维分布模型与TGF-β1和IGF-1的预测集成具有关节软骨纤维模量的TGF-β1和IGF-1调节
7. Integrating qPLM and biomechanical test data with an anisotropic fiber distribution model and predictions of TGF- Mathematical expression1 and IGF-1 regulation of articular cartilage fiber modulus [O] . M. Stender, C. Raub, K. Yamauchi, 2013

机译：将qPLM和生物力学测试数据与各向异性纤维分布模型集成在一起，并预测TGF-关节软骨纤维模量的数学表达1和IGF-1调节

INTEGRATING QPLM AND BIOMECHANICAL TEST DATA WITH AN ANISOTROPIC FIBER DISTRIBUTION MODEL AND IN VITRO REGULATION OF ARTICULAR CARTILAGE FIBER MODULUS

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