Journal of Bionic Engineering ›› 2023, Vol. 20 ›› Issue (4): 1635-1645.doi: 10.1007/s42235-023-00355-9
Hirono Ohashi1; Shunsuke Shigaki1; Ryo Teramae1; Masahiro Shimizu1; Koh Hosoda1
Hirono Ohashi1; Shunsuke Shigaki1; Ryo Teramae1; Masahiro Shimizu1; Koh Hosoda1
摘要: Recent advances in bionics have made it possible to create various tissue and organs. Using this cell culture technology, engineers have developed a robot driven by three-dimensional cultured muscle cells (bioactuator)—a muscle cell robot. For more applications, researchers have been developed various tissues and organs with bio3D printer. However, three-dimensional cultured muscle cells printed by bio3D printer have been not used for muscle cell robot yet. The aim of our study is to develop easy fabrication method of bioactuator having high design flexibility like as bio3D printer. We fabricated three-dimensional cultured muscle cells using mold and dish having pin which can contribute to shape and cell alignment. In this study, we observed that our method maintained the shape of three-dimensional cultured muscle cells and caused cell alignment which is important for bioactuator development. We named three-dimensional cultured muscle cells developed in this study “bio-cultured artificial muscle (BiCAM)”. Finally, we observed that BiCAM contracted in response to electrical stimulus. From these data, we concluded our proposed method is easy fabrication method of bioactuator having high design flexibility.