Cell culture in autologous fibrin scaffolds for applications in tissue engineering |
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Authors: | Pilar de la Puente,Dolores Ludeñ a |
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Affiliation: | 1. Department of Radiation Oncology, Cancer Biology Division, Washington University in St Louis School of Medicine, St. Louis, MO 63108, USA;2. Pathology Service, University Hospital of Salamanca, Salamanca, Spain |
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Abstract: | In tissue engineering techniques, three-dimensional scaffolds are needed to adjust and guide cell growth and to allow tissue regeneration. The scaffold must be biocompatible, biodegradable and must benefit the interactions between cells and biomaterial. Some natural biomaterials such as fibrin provide a structure similar to the native extracellular matrix containing the cells. Fibrin was first used as a sealant based on pools of commercial fibrinogen. However, the high risk of viral transmission of these pools led to the development of techniques of viral inactivation and elimination and the use of autologous fibrins. In recent decades, fibrin has been used as a release system and three-dimensional scaffold for cell culture. Fibrin scaffolds have been widely used for the culture of different types of cells, and have found several applications in tissue engineering. The structure and development of scaffolds is a key point for cell culture because scaffolds of autologous fibrin offer an important alternative due to their low fibrinogen concentrations, which are more suitable for cell growth. |
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Keywords: | Autologous Fibrin scaffolds Tissue engineering Fibrinogen Cell culture |
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