3D bioprinting and its in vivo applications

Hong Nhayoung; Yang Gi-Hoon; Lee JaeHwan; Kim GeunHyung

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3D bioprinting and its in vivo applications

机译：3D BioPlinting及其体内应用

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The purpose of 3D bioprinting technology is to design and create functional 3D tissues or organs in situ for in vivo applications. 3D cell-printing, or additive biomanufacturing, allows the selection of biomaterials and cells (bioink), and the fabrication of cell-laden structures in high resolution. 3D cell-printed structures have also been used for applications such as research models, drug delivery and discovery, and toxicology. Recently, numerous attempts have been made to fabricate tissues and organs by using various 3D printing techniques. However, challenges such as vascularization are yet to be solved. This article reviews the most commonly used 3D cell-printing techniques with their advantages and drawbacks. Furthermore, up-to-date achievements of 3D bioprinting in in vivo applications are introduced, and prospects for the future of 3D cell-printing technology are discussed. (c) 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 106B: 444-459, 2018.

机译：3D BioPlinting技术的目的是在体内应用设计和创建功能3D组织或器官。 3D细胞印刷或添加性生物制造允许选择生物材料和细胞（生物链），并以高分辨率制造细胞升起的结构。 3D细胞印刷结构也已用于研究模型，药物递送和发现等应用，以及毒理学。最近，已经通过使用各种3D打印技术来制造组织和器官的许多尝试。然而，尚未解决血管化等挑战。本文审查了最常用的3D细胞印刷技术，具有它们的优点和缺点。此外，介绍了在体内应用中的3D生物印刷内的最新成果，并讨论了3D细胞印刷技术的未来的前景。（c）2017年Wiley期刊，Inc。J生物保解员B：苹果生物摩特，106B：444-459,2018。

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《Journal of biomedical materials research. Part B, Applied biomaterials.》 |2018年第1期|共16页
作者
Hong Nhayoung; Yang Gi-Hoon; Lee JaeHwan; Kim GeunHyung;
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作者单位

Sungkyunkwan Univ Dept Biomechatron Engn Coll Biotechnol &

Bioengn Suwon South Korea;

Sungkyunkwan Univ Dept Biomechatron Engn Coll Biotechnol &

Bioengn Suwon South Korea;

Sungkyunkwan Univ Dept Food Sci &

Biotechnol Coll Biotechnol &

Bioengn Suwon South Korea;

Sungkyunkwan Univ Dept Biomechatron Engn Coll Biotechnol &

Bioengn Suwon South Korea;

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原文格式 PDF
正文语种 eng
中图分类医用一般科学;
关键词
3D bioprinting; tissue engineering; clinical application;

机译：3D BioPlinting;组织工程;临床应用;

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专利

1. 3D bioprinting and its in vivo applications [J] . Hong Nhayoung, Yang Gi-Hoon, Lee JaeHwan, Journal of biomedical materials research. Part B, Applied biomaterials. . 2018,第1期

机译：3D BioPlinting及其体内应用
2. Validation of the 1,4‐butanediol thermoplastic polyurethane as a novel material for 3D bioprinting applications [J] . Carlos Chocarro‐Wrona, Juan de Vicente, Cristina Antich, Bioengineering & Translational Medicine . 2021,第1期

机译：将1,4-丁二醇热塑性聚氨酯验证为3D生物监测应用的新型材料
3. 3D bioprinting applications in neural tissue engineering for spinal cord injury repair [J] . Materials science & engineering . 2020,第May期

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4. In Vivo Evaluation of a Collagen-Based Bioink for 3D- Bioprinting of a Tissue-Engineered Aortic Heart Valve [C] . Eva L. Maxson, Behnam Heidari, David Morse, Society for Biomaterials annual meeting and exposition . 2018

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5. Integrating Advanced 3D Bioprinting and Nanotechnology for Neural Tissue Engineering Applications [D] . Lee, Se-Jun. 2020

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6. Ultra-Low-Cost 3D Bioprinting: Modification and Application of an Off-the-Shelf Desktop 3D-Printer for Biofabrication [O] . Melanie Kahl, Markus Gertig, Phillipp Hoyer, 2019

机译：超低成本3D生物打印：用于生物制造的现成台式3D打印机的修改和应用
7. 3D Bioprinting of Cardiovascular Tissues for In Vivo and In Vitro Applications Using Hybrid Hydrogels Containing Silk Fibroin: State of the Art and Challenges [O] . Laura Vettori, Poonam Sharma, Jelena Rnjak-Kovacina, 2020

机译：使用含有丝纤维素的杂种水凝胶的体内和体外应用的心血管组织的3D生物印刷品：现有技术和挑战

3D bioprinting and its in vivo applications

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