Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering

Jaeyoon Lee; Jiun Lee; Soo Jung Chae; Wonjin Kim; Miji Yeo; Geunhyung Kim

Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering

Jaeyoon Lee, Jiun Lee, Soo Jung Chae, Wonjin Kim, Miji Yeo, Geunhyung Kim

Department of Precision Medicine

Sungkyunkwan University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Statement of Purpose: Alginate is commonly used biocompatible polysaccharide which has good biocompatibility, hydrophilicity, non-antigenicity, easy/rapid gelation using calcium ions, and controllable biodegradability [1]. However, as reported by several groups, it has no cell-activating sites and has low mechanical properties for hard tissue regeneration. To overcome these issues, we fabricate the chemically conjugated M13 bacteriophage/alginate scaffold using the low temperature (-20℃) printing process. Through this bioprinting process we could produce biologically improved 3D scaffold for bone tissue regeneration.

Original language	English
Title of host publication	Society for Biomaterials Annual Meeting and Exposition 2019
Subtitle of host publication	The Pinnacle of Biomaterials Innovation and Excellence - Transactions of the 42nd Annual Meeting
Publisher	Society for Biomaterials
Pages	886
Number of pages	1
ISBN (Electronic)	9781510883901
State	Published - 2019
Event	42nd Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence - Seattle, United States Duration: 3 Apr 2019 → 6 Apr 2019

Publication series

Name	Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium
Volume	40
ISSN (Print)	1526-7547

Conference

Conference	42nd Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence
Country/Territory	United States
City	Seattle
Period	3/04/19 → 6/04/19

Cite this

Lee, J., Lee, J., Chae, S. J., Kim, W., Yeo, M., & Kim, G. (2019). Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering. In Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence - Transactions of the 42nd Annual Meeting (pp. 886). (Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium; Vol. 40). Society for Biomaterials.

Lee, Jaeyoon ; Lee, Jiun ; Chae, Soo Jung et al. / Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering. Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence - Transactions of the 42nd Annual Meeting. Society for Biomaterials, 2019. pp. 886 (Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium).

@inproceedings{c733e8006d0e4c6dab3389592f003682,

title = "Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering",

abstract = "Statement of Purpose: Alginate is commonly used biocompatible polysaccharide which has good biocompatibility, hydrophilicity, non-antigenicity, easy/rapid gelation using calcium ions, and controllable biodegradability [1]. However, as reported by several groups, it has no cell-activating sites and has low mechanical properties for hard tissue regeneration. To overcome these issues, we fabricate the chemically conjugated M13 bacteriophage/alginate scaffold using the low temperature (-20℃) printing process. Through this bioprinting process we could produce biologically improved 3D scaffold for bone tissue regeneration.",

author = "Jaeyoon Lee and Jiun Lee and Chae, \{Soo Jung\} and Wonjin Kim and Miji Yeo and Geunhyung Kim",

note = "Publisher Copyright: {\textcopyright} 2019 Omnipress - All rights reserved.; 42nd Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence ; Conference date: 03-04-2019 Through 06-04-2019",

year = "2019",

language = "English",

series = "Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium",

publisher = "Society for Biomaterials",

pages = "886",

booktitle = "Society for Biomaterials Annual Meeting and Exposition 2019",

}

Lee, J, Lee, J, Chae, SJ, Kim, W, Yeo, M & Kim, G 2019, Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering. in Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence - Transactions of the 42nd Annual Meeting. Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium, vol. 40, Society for Biomaterials, pp. 886, 42nd Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence, Seattle, United States, 3/04/19.

Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering. / Lee, Jaeyoon; Lee, Jiun; Chae, Soo Jung et al.
Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence - Transactions of the 42nd Annual Meeting. Society for Biomaterials, 2019. p. 886 (Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium; Vol. 40).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering

AU - Lee, Jaeyoon

AU - Lee, Jiun

AU - Chae, Soo Jung

AU - Kim, Wonjin

AU - Yeo, Miji

AU - Kim, Geunhyung

PY - 2019

Y1 - 2019

N2 - Statement of Purpose: Alginate is commonly used biocompatible polysaccharide which has good biocompatibility, hydrophilicity, non-antigenicity, easy/rapid gelation using calcium ions, and controllable biodegradability [1]. However, as reported by several groups, it has no cell-activating sites and has low mechanical properties for hard tissue regeneration. To overcome these issues, we fabricate the chemically conjugated M13 bacteriophage/alginate scaffold using the low temperature (-20℃) printing process. Through this bioprinting process we could produce biologically improved 3D scaffold for bone tissue regeneration.

AB - Statement of Purpose: Alginate is commonly used biocompatible polysaccharide which has good biocompatibility, hydrophilicity, non-antigenicity, easy/rapid gelation using calcium ions, and controllable biodegradability [1]. However, as reported by several groups, it has no cell-activating sites and has low mechanical properties for hard tissue regeneration. To overcome these issues, we fabricate the chemically conjugated M13 bacteriophage/alginate scaffold using the low temperature (-20℃) printing process. Through this bioprinting process we could produce biologically improved 3D scaffold for bone tissue regeneration.

UR - https://www.scopus.com/pages/publications/85065438926

M3 - Conference contribution

AN - SCOPUS:85065438926

T3 - Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium

SP - 886

BT - Society for Biomaterials Annual Meeting and Exposition 2019

PB - Society for Biomaterials

T2 - 42nd Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence

Y2 - 3 April 2019 through 6 April 2019

ER -

Lee J, Lee J, Chae SJ, Kim W, Yeo M, Kim G. Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering. In Society for Biomaterials Annual Meeting and Exposition 2019: The Pinnacle of Biomaterials Innovation and Excellence - Transactions of the 42nd Annual Meeting. Society for Biomaterials. 2019. p. 886. (Transactions of the Annual Meeting of the Society for Biomaterials and the Annual International Biomaterials Symposium).

Fabrication of m13-bacteriophage-conjugated alginate scaffold for hard tissue engineering

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