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Issue 34, 2013
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Chitin nanofiber micropatterned flexible substrates for tissue engineering

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Abstract

Engineered tissues require enhanced organization of cells and the extracellular matrix (ECM) for proper function. To promote cell organization, substrates with controlled micro- and nanopatterns have been developed as supports for cell growth, and to induce cellular elongation and orientation via contact guidance. Micropatterned ultra-thin biodegradable substrates are desirable for implantation in the host tissue. These substrates, however, need to be mechanically robust to provide substantial support for the generation of new tissues, to be easily retrievable, and to maintain proper handling characteristics. Here, we introduce ultra-thin (<10 μm), self-assembled chitin nanofiber substrates micropatterned by replica molding for engineering cell sheets. These substrates are biodegradable, mechanically strong, yet flexible, and can be easily manipulated into the desired shape. As a proof-of-concept, fibroblast cell attachment, proliferation, elongation, and alignment were studied on the developed substrates with different pattern dimensions. On the optimized substrates, the majority of the cells aligned (<10°) along the major axis of micropatterned features. With the ease of fabrication and mechanical robustness, the substrates presented herein can be utilized as a versatile system for the engineering and delivery of ordered tissue in applications such as myocardial repair.

Graphical abstract: Chitin nanofiber micropatterned flexible substrates for tissue engineering

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Publication details

The article was received on 03 Jun 2013, accepted on 08 Jul 2013 and first published on 08 Jul 2013


Article type: Paper
DOI: 10.1039/C3TB20782J
Citation: J. Mater. Chem. B, 2013,1, 4217-4224
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    Chitin nanofiber micropatterned flexible substrates for tissue engineering

    P. Hassanzadeh, M. Kharaziha, M. Nikkhah, S. R. Shin, J. Jin, S. He, W. Sun, C. Zhong, M. R. Dokmeci, A. Khademhosseini and M. Rolandi, J. Mater. Chem. B, 2013, 1, 4217
    DOI: 10.1039/C3TB20782J

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