71 / 2018-06-28 20:38:40
Fiber-based Mini Tissue with Morphology-Controllable GelMA Microfibers
Gelatin methacryloyl (GelMA); Coaxial bioprinting; GelMA microfibers; Blood vessels; Fiber-based tissue engineering
Abstract Accepted
Lei Shao / Zhejiang University
Qing Gao / Zhejiang University
Chaoqi Xie / Zhejiang University
Jianzhong Fu / Zhejiang University
Zhenjie Liu / Zhejiang University
Meixiang Xiang / Zhejiang University
Yong He / Zhejiang University
The use of micro-scale fibers could facilitate nutrient diffusion in fiber-based tissue engineering and improve cell survival. However, in order to build a functional mini tissue such as muscle fibers, nerve conduits and blood vessels, hydrogel microfibers should not only mimic the structural features of native tissues, but also offer a cell-favorable environment and sufficient strength for tissue functionalization. Therefore, an important goal is to fabricate morphology-controllable microfibers with appropriate hydrogel materials to mimic the structural and functional complexity of native tissues. Here, gelatin methacrylate (GelMA) is used as the fiber material due to its excellent biological performance, and a novel coaxial bioprinting method is developed to fabricate morphology-controllable pure GelMA microfibers. By adjusting the flow rates, GelMA microfibers with straight, wavy, and helical morphologies could be obtained. By varying the coaxial nozzle design, more complex GelMA microfibers such as Janus, multilayered, and double helix structures could be fabricated. Using these microfibers, mini tissues containing human umbilical cord vein endothelial cells are built, in which cells gradually migrate and connect to form lumen resembling blood vessels. The merits of cytocompatibility, structural diversity, and mechanical tunability of the versatile microfibers may open more avenues for further biomedical research.
Important Date
  • Conference Date

    Aug 26

    2018

    to

    Aug 28

    2018

  • Apr 09 2018

    Abstract Submission Deadline

  • May 01 2018

    Draft paper submission deadline

  • Aug 01 2018

    Abstract Notification of Acceptance

  • Aug 01 2018

    Draft Paper Acceptance Notification

  • Aug 28 2018

    Registration deadline

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