AI Article Synopsis
- Many skin conditions, like aging and cancer, modify the structure of skin tissue, which can affect how cells behave and overall biological processes.
- Tissue engineering offers a way to study skin by creating realistic 3D models using human cells, eliminating the need for animal testing that can lead to unreliable results.
- A new self-assembly method for constructing skin tissue achieves better alignment of cells and fibers while being cost-effective and suitable for research in dermatology.
Article Abstract
Many pathologies of skin, especially ageing and cancer, involve modifications in the matrix alignment. Such tissue reorganization could have impact on cell behaviour and/or more global biological processes. Tissue engineering provides accurate study model by mimicking the skin and it allows the construction of versatile tridimensional models using human cells. It also avoids the use of animals, which gave sometimes nontranslatable results. Among the various techniques existing, the self-assembly method allows production of a near native skin, free of exogenous material. After cultivating human dermal fibroblasts in the presence of ascorbate during two weeks, a reseeding of these cells takes place after elevation of the resulting stroma on a permeable ring and culture pursued for another two weeks. This protocol induces a clear realignment of matrix fibres and cells parallel to the horizon. The thickness of this stretched reconstructed tissue is reduced compared to the stroma produced by the standard technique. Cell count is also reduced. In conclusion, a new, easy, and inexpensive method to produce aligned tissue free of exogenous material could be used for fundamental research applications in dermatology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4804048 | PMC |
| http://dx.doi.org/10.1155/2016/5397319 | DOI Listing |
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