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3D bioprinting of functional cell-laden bioinks and its application for cell-alignment and maturation

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Abstract Biomedical scaffolds should provide physical, biological, and topographical cues to seeded or laden cells to successfully mimic the physiochemical properties of native tissues. Cell-laden scaffolds, in particular, can efficiently… Click to show full abstract

Abstract Biomedical scaffolds should provide physical, biological, and topographical cues to seeded or laden cells to successfully mimic the physiochemical properties of native tissues. Cell-laden scaffolds, in particular, can efficiently deliver various cells safely to the defected region. However, the fabrication of a functional cell-laden structure with a topographical cue has been an overcoming issue. In this study, we used a GelMa-based hydrogel, which is used as a bioink in various cell-embedding systems, to fabricate a functional bioink to easily and efficiently induce topographical cue by wall shear stress within an extruding nozzle of the 3D printing system. The functional bioink was obtained by pre-culturing the cell-laden bioink. The pre-culturing periods were optimized to develop an anisotropic morphological shaped cell/cytoskeleton, which is more sensitive to the external shear stress in comparison to the spherical morphological shaped laden cells. In vitro cellular activities with C2C12 myoblasts showed that the pre-cultured cell-laden GelMa bioink with non-spherical morphological shaped cell/cytoskeleton was fully aligned to the printing direction and showed outstanding results for the myotube alignment and maturation, as compared to the general cell-laden bioink. To show the feasibility of the method, we used a ColMa (methacrylated collagen)-based bioink and successfully obtained fully aligned myotubes in the cell-laden ColMa-structure. Furthermore, hASCs (human adipose stem cells) and hMPCs (muscle precursor cells) were applied in this method, and the cells were fully aligned in a printing direction. The in vitro results suggest that the new method has great potential for attaining aligned tissue structures, providing a unique topographical cue to the laden cells.

Keywords: bioink; cell laden; alignment maturation; cell; functional cell

Journal Title: Applied Materials Today
Year Published: 2020

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