Printing support hydrogels for creating vascular-like structures in stacked cell sheets

Ryu ichiro Tanaka; Katsuhisa Sakaguchi; Shinjiro Umezu

doi:10.1007/s10015-020-00605-7

Printing support hydrogels for creating vascular-like structures in stacked cell sheets

Ryu ichiro Tanaka, Katsuhisa Sakaguchi, Shinjiro Umezu^*

^*この研究の対応する著者

研究成果: Article › 査読

3 被引用数 (Scopus)

抄録

Vascular structures are essential for the survival of thick artificial three-dimensional (3D) tissues. However, it is difficult to create high-cell-density artificial tissue with vascular structures of a few hundred micrometers in diameter. Bioprinting technology can create artificial 3D tissues with vascular structures of a few hundred micrometers in diameter, but the cell density of bio-printed artificial 3D tissues is low. On the other hand, cell sheet technology can create high-cell-density artificial 3D tissues by stacking, but it is not possible to set small vascular structures at any place. In this study, we successfully demonstrated high-cell-density artificial 3D tissues with vascular-like structures by stacking cell sheets combined with bioprinting technology.

本文言語	English
ページ（範囲）	199-203
ページ数	5
ジャーナル	Artificial Life and Robotics
巻	25
号	2
DOI	https://doi.org/10.1007/s10015-020-00605-7
出版ステータス	Published - 2020 5月 1

ASJC Scopus subject areas

生化学、遺伝学、分子生物学（全般）
人工知能

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10.1007/s10015-020-00605-7

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@article{0314664b3d30431c9f2083554a4d411a,

title = "Printing support hydrogels for creating vascular-like structures in stacked cell sheets",

abstract = "Vascular structures are essential for the survival of thick artificial three-dimensional (3D) tissues. However, it is difficult to create high-cell-density artificial tissue with vascular structures of a few hundred micrometers in diameter. Bioprinting technology can create artificial 3D tissues with vascular structures of a few hundred micrometers in diameter, but the cell density of bio-printed artificial 3D tissues is low. On the other hand, cell sheet technology can create high-cell-density artificial 3D tissues by stacking, but it is not possible to set small vascular structures at any place. In this study, we successfully demonstrated high-cell-density artificial 3D tissues with vascular-like structures by stacking cell sheets combined with bioprinting technology.",

keywords = "Bioprinting, Cell sheet, Support hydrogel, Vascular-like structure",

author = "Tanaka, {Ryu ichiro} and Katsuhisa Sakaguchi and Shinjiro Umezu",

note = "Funding Information: This work was supported by Japan Society for the Promotion of Science (no. 18K18838) and Japan Science and Technology Agency (no. JPMJMI18CD). Publisher Copyright: {\textcopyright} 2020, International Society of Artificial Life and Robotics (ISAROB).",

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doi = "10.1007/s10015-020-00605-7",

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TY - JOUR

T1 - Printing support hydrogels for creating vascular-like structures in stacked cell sheets

AU - Tanaka, Ryu ichiro

AU - Sakaguchi, Katsuhisa

AU - Umezu, Shinjiro

N1 - Funding Information: This work was supported by Japan Society for the Promotion of Science (no. 18K18838) and Japan Science and Technology Agency (no. JPMJMI18CD). Publisher Copyright: © 2020, International Society of Artificial Life and Robotics (ISAROB).

PY - 2020/5/1

Y1 - 2020/5/1

N2 - Vascular structures are essential for the survival of thick artificial three-dimensional (3D) tissues. However, it is difficult to create high-cell-density artificial tissue with vascular structures of a few hundred micrometers in diameter. Bioprinting technology can create artificial 3D tissues with vascular structures of a few hundred micrometers in diameter, but the cell density of bio-printed artificial 3D tissues is low. On the other hand, cell sheet technology can create high-cell-density artificial 3D tissues by stacking, but it is not possible to set small vascular structures at any place. In this study, we successfully demonstrated high-cell-density artificial 3D tissues with vascular-like structures by stacking cell sheets combined with bioprinting technology.

AB - Vascular structures are essential for the survival of thick artificial three-dimensional (3D) tissues. However, it is difficult to create high-cell-density artificial tissue with vascular structures of a few hundred micrometers in diameter. Bioprinting technology can create artificial 3D tissues with vascular structures of a few hundred micrometers in diameter, but the cell density of bio-printed artificial 3D tissues is low. On the other hand, cell sheet technology can create high-cell-density artificial 3D tissues by stacking, but it is not possible to set small vascular structures at any place. In this study, we successfully demonstrated high-cell-density artificial 3D tissues with vascular-like structures by stacking cell sheets combined with bioprinting technology.

KW - Bioprinting

KW - Cell sheet

KW - Support hydrogel

KW - Vascular-like structure

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EP - 203

JO - Artificial Life and Robotics

JF - Artificial Life and Robotics

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ER -

Printing support hydrogels for creating vascular-like structures in stacked cell sheets

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