Biofabrication Using Electrochemical Devices and Systems

Kosuke Ino¹, Fumisato Ozawa², Ning Dang³, Kaoru Hiramoto⁴, Shodai Hino⁴, Rise Akasaka⁵, Yuji Nashimoto^{1

6}, Hitoshi Shiku¹

Affiliations

¹ Graduate School of Engineering, Tohoku University, 6-6-11 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8579, Japan.
² Institute of Industrial Science, The University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo, 153-8505, Japan.
³ Laboratoire de Chimie Physique et Microbiologie pour les Matériaux et l'Environnement, CNRS-Université de Lorraine, Villers-lès-Nancy, 54600, France.
⁴ Graduate School of Environmental Studies, Tohoku University, 6-6-11 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8579, Japan.
⁵ School of Engineering, Tohoku University, 6-6-11 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8579, Japan.
⁶ Frontier Research Institute for Interdisciplinary Sciences, Tohoku University, 6-3 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8578, Japan.

PMID: 32293161
DOI: 10.1002/adbi.201900234

Review

Biofabrication Using Electrochemical Devices and Systems

Kosuke Ino et al. Adv Biosyst. 2020 Apr.

. 2020 Apr;4(4):e1900234.

doi: 10.1002/adbi.201900234. Epub 2020 Jan 29.

Authors

Kosuke Ino¹, Fumisato Ozawa², Ning Dang³, Kaoru Hiramoto⁴, Shodai Hino⁴, Rise Akasaka⁵, Yuji Nashimoto^{1

6}, Hitoshi Shiku¹

Affiliations

¹ Graduate School of Engineering, Tohoku University, 6-6-11 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8579, Japan.
² Institute of Industrial Science, The University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo, 153-8505, Japan.
³ Laboratoire de Chimie Physique et Microbiologie pour les Matériaux et l'Environnement, CNRS-Université de Lorraine, Villers-lès-Nancy, 54600, France.
⁴ Graduate School of Environmental Studies, Tohoku University, 6-6-11 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8579, Japan.
⁵ School of Engineering, Tohoku University, 6-6-11 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8579, Japan.
⁶ Frontier Research Institute for Interdisciplinary Sciences, Tohoku University, 6-3 Aramaki-aza Aoba, Aoba-ku, Sendai, 980-8578, Japan.

PMID: 32293161
DOI: 10.1002/adbi.201900234

Abstract

Biofabrication is roughly defined as techniques producing complex 2D and 3D tissues and organs from raw materials such as living cells, matrices, biomaterials, and molecules. It is useful for tissue engineering, regenerative medicine, drug screening, and organs-on-a-chip. Biofabrication could be carried out by microfluidic techniques, optical methods, microfabrication, 3D bioprinting, etc. Meanwhile, electrochemical devices and/or systems have also been reported. In this progress report, the recent advances in applying these devices/systems for biofabrication are summarized. After introducing the concept of biofabrication, biofabrication strategies using electrochemical approaches are summarized. Then, various electrochemical systems such as probes and chip devices are described. Next, the biofabrication of hydrogels for 3D cell culture, electrochemical modification on cell culture surfaces, electrodeposition of conductive materials in hydrogels for cell culture, and biofabrication of cell aggregates using dielectrophoresis is discussed. In addition, electrochemical stimulation methods such as electrotaxis are mentioned as promising techniques for biofabrication. Finally, future research directions in this field and the application prospects are highlighted.

Keywords: bio-MEMS; biofabrication; biosynthesis; electrochemical devices.

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References

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Biofabrication Using Electrochemical Devices and Systems

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Biofabrication Using Electrochemical Devices and Systems

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