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Epigenetics-Shedding Light on the Path Ahead for Material Sciences.

Anne Krüger-Genge1, Olivia Mauger2, Joachim Storsberg3

  • 1Department of Biomaterials and Healthcare, Fraunhofer-Institute for Applied Polymer Research (IAP), Division of Life Science and Bioprocesses, 14476 Potsdam-Golm, Germany. Anne.Krueger-Genge@iap.fraunhofer.de.

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Material sciences for medical devices require a deep understanding of epigenetics and developmental biology. Integrating biomedical and material sciences is crucial for successful clinical applications and organ/tissue replacement therapies.

Keywords:
epigeneticsmaterial sciencesmedical devices

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Area of Science:

  • Biomedical Engineering
  • Material Science
  • Epigenetics

Background:

  • Harmonious bodily function relies on intricate cellular regulation.
  • Aging and pathologies necessitate medical devices for organ/tissue replacement.
  • Tailored medical devices require understanding of normal and aberrant developmental processes.

Purpose of the Study:

  • To highlight the critical dependence of material sciences in clinical applications on biomedical sciences.
  • To emphasize the role of epigenetics in the development and success of medical devices.

Main Methods:

  • Review and synthesis of current research in material sciences, epigenetics, and developmental biology.
  • Illustrative examples of the integration of biomedical and material sciences.

Main Results:

  • Fragmented understanding of epigenetic processes limits material development for medical devices.
  • A comprehensive grasp of epigenetics is essential for designing effective medical devices.
  • Material sciences for clinical use are intrinsically linked to all biomedical disciplines.

Conclusions:

  • Material sciences for clinical applications critically depend on all aspects of biomedical sciences, including epigenetics.
  • Improved understanding of epigenetics will enhance the development of successful medical devices for organ and tissue replacement.