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Received October 8, 2015
Accepted February 5, 2016
Available online June 14, 2016
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바이오화학공학에서 3D 바이오프린팅 기술
3D Bioprinting Technology in Biochemical Engineering
Korea Institute of Science and Technology Information, 245, Daehak-ro, Yuseong-gu, Daejeon, 34141, Korea
Korean Chemical Engineering Research, June 2016, 54(3), 285-292(8)
https://doi.org/10.9713/kcer.2016.54.3.285
https://doi.org/10.9713/kcer.2016.54.3.285
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Abstract
삼차원 프린팅(3D printing) 기술은 공학, 제조업, 교육, 예술, 그리고 바이오의학 같은 다양한 분야에 활용되고 있는 혁신적 기술이다. 프린팅 기술, 재료/생화학물질을 포함한 최근 기술의 진보는 생체적합성 물질, 세포, 지지체 성분의 3D 프린팅으로 복잡한 3D 기능성 조직과 장기를 제작할 수 있는 가능성을 보여주고 있다. 3D 바이오프린팅 기술은 신약 개발, 독성 연구를 위한 조직 모델의 제작에도 활용되고 있다. 3D 바이오프린팅 기술은 공학, 생체재료과학, 세포생물학, 생화학, 물리, 의학 같은 분야의 통섭이 필요한 연구 분야이다.
Three-dimensional (3D) printing is driving major innovation in various areas including engineering, manufacturing, art, education and biosciences such as biochemical engineering, tissue engineering and regenerative medicine. Recent advances have enabled 3D printing of biocompatible materials, cells and supporting components into complex 3D functional tissues. Compared with non-biological printing, 3D bioprinting involves additional complexities which require the integration of technologies from the fields of biochemical engineering, biomaterial sciences, cell biology, physics, pharmaceutics and medical science.
Keywords
References
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Nakamura M, Iwanaga S, Henmi C, Arai K, Nishiyama Y, Biofabrication, 2, 014110 (2010)
Griffith LG, Naughton G, Science, 295, 1009 (2002)
Mikos AG, Temenoff JS, Electron. J. Biotechnol., 3, 114 (2000)
Tsang VL, Bhatia SN, Adv. Drug Deliv. Rev., 56(11), 1635 (2004)
Derby B, Science, 338(6109), 921 (2012)
Starly B, Shirwaiker R, “3D Bioprinting Techniques,” In: Zhang LG, Fisher JP, Lerong KW. (eds.) 3D Bioprinting and Nanotechnology in Tissue Engineering and Regenerative Medicine, Academic Press, 57-77(2015).
Derby B, J. Mater. Chem., 18, 5717 (2008)
Okamoto T, Suzuki T, Yamamoto N, Nature Biotechnololy, 18, 438 (2000)
Delaney JT, Smith PJ, Schubert, Soft Matters, 5, 4866 (2009)
Cui X, Boland T, D'Lima DD, Lotz MK, Drug Deliv., 6(2), 149 (2012)
Goldmann T, Gonzalez JS, J. Biochemical Biophysical Methods, 42, 105 (2000)
Cui XF, Dean D, Ruggeri ZM, Boland T, Biotechnol. Bioeng., 106(6), 963 (2010)
Tekin E, Smith PJ, Schubert, Soft Matters, 4, 703 (2008)
Demirci U, Montesano G, Lab on a Chip, 7, 1139 (2007)
Kim JD, Choi JS, Kim BS, Choi YC, Cho YW, Polymer, 51(10), 2147 (2010)
Saunders RE, Bosworth L, Gough JE, Derby B, Biomaterials, 29, 193 (2008)
Murphy SV, Skardal A, Atala A, J. Biomed. Mater. Res. A, 101, 272 (2013)
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Smith CM, Stone AL, Parkhill RL, Stewart RL, Simpkins MW, Kachurin AM, Warren WL, Williams SK, Tissue Eng., 10, 1566 (2004)
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Chang CC, Boland ED, Williams SK, Hoying JB, J. Biomed. Mater. Res. B Appl. Biomater., 98, 106 (2011)
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Jakab K, Damon B, Neagu A, Kachurin A, Forgacs G, Biorheology, 43, 509 (2006)
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Murphy SV, Atala A, Nature Biotechnology, 32(8), 773 (2014)
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Kitson PJ, Rosnes MH, Sans V, Cronin L, Lab on a Chip, 12, 3267 (2012)
Anderson KB, Lockwood SY, Martin RS, Spence DM, Anal. Chem., 85(12), 5622 (2013)
Lee KR, Song KH, Korean J. Chem. Eng., 32(1), 162 (2014)
Jeong GT, Korean Chem. Eng. Res., 52(3), 355 (2014)
