Three-Dimensional Multilayered Microstructure Using Needle Array Bioprinting System
Yasuhiro Shudo, John W. MacArthur, Yoshihiro Kunitomi, Lydia‐Marie Joubert, Masashi Kawamura, Jiro Ono, Akshara D. Thakore, Kevin Jaatinen, Anahita Eskandari, Camille E. Hironaka, Hye Sook Shin, Y. Joseph Woo
- 发表年份
- 2020
- 引用次数
- 3
摘要
; Cyfuse, Tokyo, Japan). This technique utilizes the adhesive nature of cells. When cells are cultured in nonadhesive wells, they tend to aggregate and form a spheroidal structure. The advantage of this approach is that cellular components can be mixed into one spheroid, thereby promoting the formation of extracellular matrices, such as collagen and elastin. This system enables one to create a predesigned 3D structure composed of cultured cells. We found that the advantages of this system to be (1) the length, size, and shape of the structure that were designable and highly reproducible because of the computer controlled robotics system, (2) the graftable structure could be created within a reasonable period (8 days), and (3) the constructed tissue did not contain any foreign material, which may avoid the potential issues of contamination, biotoxicity, and allergy. The utilization of this robotic system enabled the creation of a 3D multilayered microstructure made of cell-based spheres with a satisfactory mechanical properties and abundant extracellular matrix during a short period of time. These results suggest that this new technology will represent a promising, attractive, and practical strategy in the field of tissue engineering. Impact statement The utilization of the "three dimensional tissue fabrication system" enabled the creation of a three-dimensional (3D) multilayered microstructure made of cell-based spheres with a satisfactory mechanical properties and abundant extracellular matrix during a short period of time. These results suggest that this new technology will represent a promising, attractive, and practical strategy in the field of tissue engineering.
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