用原子力显微镜测量生物材料力学。1. 加载速率和外加力（金字塔形尖端）的影响。

Measuring biomaterials mechanics with atomic force microscopy. 1. Influence of the loading rate and applied force (pyramidal tips).

机构信息

Department of Nanobiotechnology, Institute for Biophysics, University of Natural Resources and Life Sciences, BOKU, Vienna, Austria.

Department of Mathematics for Economics and Business, Universitat de Valencia, Valencia, Spain.

出版信息

Microsc Res Tech. 2019 Sep;82(9):1392-1400. doi: 10.1002/jemt.23291. Epub 2019 May 20.

DOI:10.1002/jemt.23291

PMID:31106928

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6767567/

Abstract

Atomic force microscopy (AFM) is today an established tool in imaging and determination of mechanical properties of biomaterials. Due to their complex organization, those materials show intricate properties such as viscoelasticity. Therefore, one has to consider that the loading rate at which the sample is probed will lead to different mechanical response (properties). In this work, we studied the dependence of the mechanical properties of endothelial cells on the loading rate using AFM in force spectroscopy mode. We employed a sharp, four-sided pyramidal indenter and loading rates ranging from 0.5 to 20 μm/s. In addition, by variation of the load (applied forces from 100 to 10,000 pN), the dependence of the cell properties on indentation depth could be determined. We then showed that the mechanical response of endothelial cells depends nonlinearly on the loading rate and follows a weak power-law. In addition, regions of different viscous response at varying indentation depth could be determined. Based on the results we obtained, a general route map for AFM users for design of cell mechanics experiments was described.

摘要

原子力显微镜（AFM）是一种成熟的工具，用于成像和测定生物材料的机械性能。由于它们复杂的组织结构，这些材料表现出复杂的特性，如粘弹性。因此，必须考虑到样品被探测时的加载速率会导致不同的机械响应（特性）。在这项工作中，我们使用 AFM 在力谱模式下研究了内皮细胞的机械性能对加载速率的依赖性。我们采用了尖锐的四面金字塔形压头，加载速率范围为 0.5 至 20 μm/s。此外，通过改变负载（施加的力从 100 到 10,000 pN），可以确定细胞特性对压入深度的依赖性。然后我们表明，内皮细胞的机械响应非线性地依赖于加载速率，并遵循弱幂律。此外，还可以确定在不同压入深度下具有不同粘性响应的区域。基于我们获得的结果，为 AFM 用户描述了设计细胞力学实验的一般路线图。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3f40/6767567/61763cd35d99/JEMT-82-1392-g001.jpg

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用原子力显微镜测量生物材料力学。1. 加载速率和外加力（金字塔形尖端）的影响。

Measuring biomaterials mechanics with atomic force microscopy. 1. Influence of the loading rate and applied force (pyramidal tips).

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