Issue 28, 2017, Issue in Progress

The modulation effect of the convexity of silicon topological nanostructures on the growth of mesenchymal stem cells

Abstract

A series of different topological nanostructures are fabricated on silicon wafer using metal-assisted chemical etching. The modulation effect of these nanostructures on the size, filopodia generation and growth orientation of the rat mesenchymal stem cells (MSCs) are studied. These topological nanostructures tend to induce the MSCs to have smaller size, but they generate much more filopodia compared to the flat silicon control. The modulation effects of these nanostructures are dependent on their surface convexity, as analysed by grey-level value histogram and fast Fourier transformation (FFT). A surface with a higher portion of convex area is better at supporting larger cell sizes. The wavenumber analysis by FFT further determines its effect on filopodia generation. In addition, the growth orientation of the cells are also guided by the surface convexity. On the porous and spongy surface, the cell filopodia extend and grow in avoidance of large sinking pits. On the columnar and spiny surface, the cell body and filopodia extend only on the tips of these nanostructures. Our study reveals that surface convexity is an important factor modulating cell behavior, and convexity analysis by image processing can work as a fast and simple evaluation standard to design topological nanostructures.

Graphical abstract: The modulation effect of the convexity of silicon topological nanostructures on the growth of mesenchymal stem cells

Supplementary files

Article information

Article type
Paper
Submitted
13 Jan 2017
Accepted
05 Mar 2017
First published
17 Mar 2017
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2017,7, 16977-16983

The modulation effect of the convexity of silicon topological nanostructures on the growth of mesenchymal stem cells

Y. Zou, H. Feng, H. Ouyang, Y. Jin, M. Yu, Z. Liu and Z. Li, RSC Adv., 2017, 7, 16977 DOI: 10.1039/C7RA00542C

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