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连续深度感应纳米力学特性对固定在玻璃基底上的活细胞和脱水细胞的测量。

Continuous depth-sensing nano-mechanical characterization of living, fixed and dehydrated cells attached on a glass substrate.

机构信息

Department of Materials Science and Engineering, National Cheng Kung University, Tainan 70101, Taiwan.

出版信息

Nanotechnology. 2010 Jul 16;21(28):285704. doi: 10.1088/0957-4484/21/28/285704. Epub 2010 Jun 28.

Abstract

Continuous depth-sensing nano-indentation on living, fixed and dehydrated fibroblast cells was performed using a dynamic contact module and vertically measured from a pre-contact state to the glass substrate. The nano-indentation tip-on-cell approaches took advantage of finding a contact surface, followed by obtaining a continuous nano-mechanical profile along the nano-indentation depths. In the experiment, serial indentations from the leading edge, i.e., the lamellipodium to nucleus regions of living, fixed and dehydrated fibroblast cells were examined. Nano-indentations on a living cell anchored upon glass substrate were competent in finding the tip-on-cell contact surfaces and cell heights. For the result on the fixed and the dehydrated cells, cellular nano-mechanical properties were clearly characterized by continuous harmonic contact stiffness (HCS) measurements. The relations of HCS versus measured displacement, varied from the initial tip-on-cell contact to the glass substrate, were presumably divided into three stages, respectively induced by cellular intrinsic behavior, the substrate-dominant property, and the substrate property. This manifestation is beneficial to elucidate how the underlying substrate influences the interpretation of the nano-mechanical property of thin soft matter on a hard substrate. These findings, based upon continuous depth-sensing nano-indentations, are presumably valuable as a reference to related work, e.g., accomplished by atomic force microscopy.

摘要

采用动态接触模块对活细胞、固定细胞和脱水细胞进行连续深度感应纳米压痕,从预接触状态垂直测量至玻璃基底。纳米压痕针尖与细胞的接近方法利用了寻找接触表面的优势,然后沿着纳米压痕深度获得连续的纳米力学轮廓。在实验中,对活细胞、固定细胞和脱水细胞的前缘(即片状伪足至细胞核区域)进行了连续压痕。在玻璃基底上固定的活细胞的纳米压痕能够找到针尖与细胞的接触表面和细胞高度。对于固定细胞和脱水细胞的结果,通过连续谐波接触刚度(HCS)测量清楚地描述了细胞的纳米力学特性。HCS 与测量位移的关系,从初始针尖与细胞的接触到玻璃基底,可能分为三个阶段,分别由细胞内在行为、基底主导特性和基底特性引起。这种表现有助于阐明底层基底如何影响对硬基底上薄软物质的纳米力学性能的解释。这些基于连续深度感应纳米压痕的发现,可能对相关工作(例如原子力显微镜完成的工作)具有参考价值。

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