Generation of a Three-dimensional Full Thickness Skin Equivalent and Automated Wounding |
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| Authors: | Angela Rossi Antje Appelt-Menzel Szymon Kurdyn Heike Walles Florian Groeber |
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| Affiliation: | 1.Department for Tissue Engineering and Regenerative Medicine, University Hospital Würzburg;2.Translational Center Würzburg, Regenerative Therapies in Oncology and Musculoskelettal Disease, Würzburg Branch of the Fraunhofer-Institute Interfacial Engineering and Biotechnology, IGB |
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| Abstract: | In vitro models are a cost effective and ethical alternative to study cutaneous wound healing processes. Moreover, by using human cells, these models reflect the human wound situation better than animal models. Although two-dimensional models are widely used to investigate processes such as cellular migration and proliferation, models that are more complex are required to gain a deeper knowledge about wound healing. Besides a suitable model system, the generation of precise and reproducible wounds is crucial to ensure comparable results between different test runs. In this study, the generation of a three-dimensional full thickness skin equivalent to study wound healing is shown. The dermal part of the models is comprised of human dermal fibroblast embedded in a rat-tail collagen type I hydrogel. Following the inoculation with human epidermal keratinocytes and consequent culture at the air-liquid interface, a multilayered epidermis is formed on top of the models. To study the wound healing process, we additionally developed an automated wounding device, which generates standardized wounds in a sterile atmosphere. |
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| Keywords: | Bioengineering Issue 96 Tissue engineering 3D in vitro models test system alternative to animal testing full thickness skin equivalent skin injury wound model automation wounding device |
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