MODELING NANOMECHANICAL STRAINS IN HEALTHY AND DISEASED SINGLE-CELLS DUE TO APPLIED FLUIDIC STRESSES

机译：应用流体应力对健康和病态单细胞中的纳米机械应变进行建模

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Advancements in technologies for assessing biomechanics at the cellular level have led to discoveries in the relationship between mechanics and biology (mechanotransduction) and the investigation of cell mechanics as a biomarker for disease [1]. With the recent development of an integrated optical tweezer with micron resolution particle image velocimetry (436 nm spatial resolution), the opportunity to apply controlled multiaxial stresses to suspended single cells is available [2]. A stress analysis was applied to experimental and theoretical flow velocity gradients of suspended cell-sized polystyrene microspheres in microfluidic environments representing the relevant geometry of non-adhered spherical cells as observed for osteoblasts, chondrocytes, and fibroblasts [3]. That analysis identified a very low level of applied stresses available during creeping laminar flow within straight and cross-junction microfluidic channel arrangements with uniform and extensional flows, respectively. As a followup study, the objective here was to apply a range of normal and shear stress profiles in a two-dimensional, computational analysis and estimate the responding cellular strains.

机译：在细胞水平上评估生物力学的技术的进步，导致了力学与生物学之间的关系的发现（机械转导）以及对作为疾病生物标志物的细胞力学的研究[1]。随着具有微米分辨率颗粒图像测速仪（436 nm空间分辨率）的集成光学镊子的最新发展，可以将受控的多轴应力应用于悬浮的单细胞[2]。应力分析应用于微流体环境中悬浮细胞大小的聚苯乙烯微球的实验和理论流速梯度，代表了成骨细胞，软骨细胞和成纤维细胞[3]中观察到的非粘附球状细胞的相关几何形状。该分析确定了在分别具有均匀流动和延伸流动的直流和交叉连接微流体通道布置内的层流蠕变期间可用的极低水平的施加应力。作为后续研究，此处的目的是在二维计算分析中应用一系列正应力和切应力曲线，并估算响应的细胞株。

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《First global congress on nanoengineering for medicine and biology 2010》|2010年|p.325-327|共3页
会议地点 Houston TX(US);Houston TX(US)
作者
Zachary D. Wilson; Sean S. Kohles;
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Reparative Bioengineering LaboratoryrnDepartment of Mechanical Materials Engineering, Portland State University,Department of Surgery, Oregon Health Science University,Portland, Oregon, USA;

Reparative Bioengineering LaboratoryrnDepartment of Mechanical Materials Engineering, Portland State University,Department of Surgery, Oregon Health Science University,Portland, Oregon, USA;

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专利

1. Cytoskeletal Strains in Modeled Optohydrodynamically Stressed Healthy and Diseased Biological Cells [J] . Sean S.Kohles, YuLiang, Asit K.Saha Journal of biophysics . 2012,第9期

机译：建模的水动力应力健康和患病的生物细胞中的细胞骨架菌株。
2. Cytoskeletal Strains inModeled Optohydrodynamically Stressed Healthy and Diseased Biological Cells [J] . Sean S. Kohles, Yu Liang, Asit K. Saha Journal of biophysics . 2012,第Null期

机译：建模的光流体动力学的健康和患病生物细胞中的细胞骨架菌株。
3. Cytoskeletal Strains inModeled Optohydrodynamically Stressed Healthy and Diseased Biological Cells [J] . Sean S. Kohles, Yu Liang, Asit K. Saha Journal of biophysics . 2012,第Null期

机译：建模的光流体动力学的健康和患病生物细胞中的细胞骨架菌株。
4. MODELING NANOMECHANICAL STRAINS IN HEALTHY AND DISEASED SINGLE-CELLS DUE TO APPLIED FLUIDIC STRESSES [C] . Zachary D. Wilson, Sean S. Kohles ASME Global Congress on Nanoengineering for Medicine and Biology . 2010

机译：施加流体应力的健康和患病单细胞中的纳米力学菌株
5. Computational modeling and analysis of fluid-structure interaction during phonation in healthy and diseased larynges. [D] . Xue, Qian. 2011

机译：健康和患病喉管发声过程中的流固耦合计算模型和分析。
6. Two-Dimensional Modeling of Nanomechanical Strains in Healthy and Diseased Single-Cells During Microfluidic Stress Applications [O] . Zachary D. Wilson, Sean S. Kohles -1

机译：健康和患病单细胞中微机械应力应用过程中纳米机械菌株的二维建模
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MODELING NANOMECHANICAL STRAINS IN HEALTHY AND DISEASED SINGLE-CELLS DUE TO APPLIED FLUIDIC STRESSES

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