使用原子力显微镜对黏弹声带组织进行压痕。
Indentation of poroviscoelastic vocal fold tissue using an atomic force microscope.
机构信息
Biomechanics Laboratory, Department of Mechanical Engineering, McGill University, 817 Rue Sherbrooke Ouest, Montreal, Que., Canada H3A 0C3.
出版信息
J Mech Behav Biomed Mater. 2013 Dec;28:383-92. doi: 10.1016/j.jmbbm.2013.05.026. Epub 2013 Jun 14.
Abstract
The elastic properties of the vocal folds (VFs) vary as a function of depth relative to the epithelial surface. The poroelastic anisotropic properties of porcine VFs, at various depths, were measured using atomic force microscopy (AFM)-based indentation. The minimum tip diameter to effectively capture the local properties was found to be 25µm, based on nonlinear laser scanning microscopy data and image analysis. The effects of AFM tip dimensions and AFM cantilever stiffness were systematically investigated. The indentation tests were performed along the sagittal and coronal planes for an evaluation of the VF anisotropy. Hertzian contact theory was used along with the governing equations of linear poroelasticity to calculate the diffusivity coefficient of the tissue from AFM indentation creep testing. The permeability coefficient of the porcine VF was found to be 1.80±0.32×10(-15)m(4)/Ns.
摘要
声韧带的弹性特性随距上皮表面的深度而变化。采用基于原子力显微镜(AFM)的压痕法测量了不同深度下猪声韧带的各向多孔弹性特性。基于非线性激光扫描显微镜数据和图像分析,发现最小的针尖直径为 25µm,可有效捕捉局部特性。系统研究了 AFM 针尖尺寸和 AFM 悬臂梁刚度的影响。为了评估声韧带的各向异性,沿矢状面和冠状面进行压痕试验。采用赫兹接触理论和线性多孔弹性的控制方程,从 AFM 压痕蠕变试验中计算组织的扩散系数。猪声韧带的渗透系数为 1.80±0.32×10(-15)m(4)/Ns。
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