Publication: A bilayered hybrid microfibrous PLGA-Acellular matrix scaffold for hollow organ tissue engineering
A bilayered hybrid microfibrous PLGA-Acellular matrix scaffold for hollow organ tissue engineering
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Horst, M., Madduri, S., Milleret, V., Sulser, T., Gobet, R., & Eberli, D. (2013). A bilayered hybrid microfibrous PLGA-Acellular matrix scaffold for hollow organ tissue engineering. Biomaterials, 34(5), 1537–1545. https://doi.org/10.1016/j.biomaterials.2012.10.075
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Various synthetic and natural biomaterials have been used for regeneration of tissues and hollow organs. However, clinical outcome of reconstructive procedures remained challenging due to the lack of appropriate scaffold materials, supporting the needs of various cell types and providing a barrier function required in hollow organs. To address these problems, we have developed a bilayered hybrid scaffold comprising unique traits of polymeric microfibers and naturally derived acellular matrices and tested its potential for hollow organ
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- Horst, Maya
- Madduri, Srinivas
- Milleret, Vincent
- Sulser, Tullio
- Gobet, Rita
- Eberli, Daniel
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Horst, M., Madduri, S., Milleret, V., Sulser, T., Gobet, R., & Eberli, D. (2013). A bilayered hybrid microfibrous PLGA-Acellular matrix scaffold for hollow organ tissue engineering. Biomaterials, 34(5), 1537–1545. https://doi.org/10.1016/j.biomaterials.2012.10.075
