Team:LMU-TUM Munich/Description

bio(t)INK - a synthetic biology approach to bioprinting

While interactions between biomolecules make up cellular systems, the three-dimensional organization of cells makes up tissues and organs. For decades, scientists have tried to reconstitute such functional tissues by assembling the cells they are made of – especially for the field of regenerative medicine, where acquiring – or failing to acquire – suitable transplants may mean life or death for the patient. The prospect of creating personalized transplants artificially has since motivated groups all around the world to take part in this endeavour.[1]

Thus, not only could bioprinting prove fruitful in the field of personalized medicine – for pharmacological applications, three-dimensional cell culture systems often constitute the first step in testing a potential pharmacological agent. Systems that resemble the human system as much as possible are especially desirable as they allow for predicting a drug's effect in vivo more confidently and may furthermore reduce the need for lab animals.[2]

References

  1. Murphy, S. V., & Atala, A. (2014). 3D bioprinting of tissues and organs. Nature biotechnology, 32(8), 773-785.
  2. Griffith, L. G., & Swartz, M. A. (2006). Capturing complex 3D tissue physiology in vitro. Nature reviews Molecular cell biology, 7(3), 211-224.
  3. Derby, B. (2012). Printing and prototyping of tissues and scaffolds. Science, 338(6109), 921-926.
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LMU & TUM Munich

Technische Universität MünchenLudwig-Maximilians-Universität München

United team from Munich's universities

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iGEM Team TU-Munich
Emil-Erlenmeyer-Forum 5
85354 Freising, Germany