单个胶原纤维的微观力学测试。

Micromechanical testing of individual collagen fibrils.

作者信息

van der Rijt Joost A J, van der Werf Kees O, Bennink Martin L, Dijkstra Pieter J, Feijen Jan

机构信息

Polymer Chemistry and Biomaterials, Institute for Biomedical Technology, Department of Science and Technology, University of Twente, PO Box 217, 7500 AE Enschede, The Netherlands.

出版信息

Macromol Biosci. 2006 Sep 15;6(9):697-702. doi: 10.1002/mabi.200600063.

DOI:10.1002/mabi.200600063

PMID:16967482

Abstract

A novel method based on AFM was used to attach individual collagen fibrils between a glass surface and the AFM tip, to allow force spectroscopy studies of these. The fibrils were deposited on glass substrates that are partly coated with Teflon AF. A modified AFM tip was used to accurately deposit epoxy glue droplets on either end of the collagen fibril that cross the glass-Teflon AF interface, as to such attach it with one end to the glass and the other end to the AFM tip. Single collagen fibrils have been mechanically tested in ambient conditions and were found to behave reversibly up to stresses of 90 MPa. Within this regime a Young's modulus of 2-7 GPa was obtained. In aqueous media, the collagen fibrils could be tested reversibly up to about 15 MPa, revealing Young's moduli ranging from 0.2 to at most 0.8 GPa.

摘要

一种基于原子力显微镜（AFM）的新方法被用于将单个胶原纤维附着在玻璃表面和AFM探针之间，以便对其进行力谱研究。这些纤维沉积在部分涂有特氟龙AF的玻璃基板上。使用改良的AFM探针在穿过玻璃-特氟龙AF界面的胶原纤维两端精确沉积环氧胶滴，从而将其一端附着在玻璃上，另一端附着在AFM探针上。单个胶原纤维已在环境条件下进行了力学测试，发现在高达90 MPa的应力下表现出可逆行为。在此范围内，获得的杨氏模量为2-7 GPa。在水性介质中，胶原纤维在高达约15 MPa的应力下可进行可逆测试，杨氏模量范围为0.2至最大0.8 GPa。

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单个胶原纤维的微观力学测试。

Micromechanical testing of individual collagen fibrils.

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