The invention of the printing press in the fifteenth century revolutionized information dissemination by enabling rapid, cost-effective reproduction of text, fostering innovation and access to knowledge [1]. Bioprinting, similarly transformative, offers a high-throughput, affordable method for assembling complex tissues by using additive manufacturing techniques to pattern cells, biomaterials, and biomolecules [2–4]. This technology leverages bio-inks, the biocompatible materials that act as scaffolds to support printed cells, which are then matured in bioreactors.

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3D-Printed Artificial Tissues

  • Arnab Chanda,
  • Dishant Sharma

摘要

The invention of the printing press in the fifteenth century revolutionized information dissemination by enabling rapid, cost-effective reproduction of text, fostering innovation and access to knowledge [1]. Bioprinting, similarly transformative, offers a high-throughput, affordable method for assembling complex tissues by using additive manufacturing techniques to pattern cells, biomaterials, and biomolecules [2–4]. This technology leverages bio-inks, the biocompatible materials that act as scaffolds to support printed cells, which are then matured in bioreactors.