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清华大学机械工程系导师教师师资介绍简介-徐 弢

本站小编 Free考研考试/2020-04-15
徐 弢
技术职务:长聘教授
办公电话: **/**
通讯地址:清华大学李兆基科技大楼A734
电子邮件:taoxu@mail.tsinghua.edu.cn





教育背景
工作履历
教学工作
科研工作
论文与专利
奖励与荣誉

2005/03-2008/07,美国Wake Forest大学医学中心,组织工程与再生医学,博士后
2001/09-2005/05,美国Clemson大学,生物工程,博士
1997/09-2000/07,中国原子能科学研究院,核技术与应用,硕士
1990/09-1994/07 ,北京航空航天大学,材料科学与工程,学士


2014/04-至今, 清华大学机械工程系,教授、博士生导师
2008/09-2014/03 广州迈普再生医学科技股份有限公司,首席科学家
2012/01-2013/01 美国Wake Forest大学医学中心,客座教授
2010/04-2012/07 美国德州理工大学医学中心,客座教授
2008/08-2013/01 美国德州大学埃尔帕索分校,助理教授、博士生导师
2005/03-2008/07 美国Wake Forest大学再生医学中心,Research Fellow
2000/09-2001/07 中国原子能科学研究院,工程师
1994/09-1997/07 国家建材局玻璃钢研究设计院,助理工程师


1. 研究生课程:
1) 高端医疗器械设计及制造概论(**-0,机械系授课)
2) 软质材料模块3:生物材料制造工程(**-200,清华伯克利深圳学院授课)
3) 高端医疗器械设计及制造概论(**-200,清华伯克利深圳学院授课)


2. 本科生课程:
1) 制造工艺设计实践(**,生物制造方向,机械系授课)


徐弢教授长期从事生物3D打印及人体组织器官制造等领域的研究工作,入选国家第十批“”长期创新人才、科技部2013年“科技创新创业人才”。现担任Biofabrication等3家国际杂志编委及《Nanotechnology》等10余家国际杂志评审专家,同时还担任中国增材制造产业联盟理事会副理事长,兼国家食品药品监督管理局医疗器械技术审评专家、国家卫生计生委3D打印医学应用专家、科技部国家重点研发计划项目评审专家等职务。
徐弢教授于2001年左右开始从事生物3D打印技术研究,是国际上最早进行细胞和器官打印技术开发的研究者之一。拥有世界首个细胞打印专利(US7,051,654,维基百科收录),作为第一作者发表首篇细胞喷墨打印论文,该论文被美国科学杂志作为重大突破专题报道(Science,2004年9月24,第1895页)。成果还受到包括美国CNN头条新闻(2003年6月23日)、美国哥伦比亚电视台(CBS)(2008年3月28日)等近百个世界主流媒体报道,其中美国著名的《Business 2.0》杂志将细胞及器官打印技术评为二十一世纪改变世界的六大技术之一(2003年5月刊)。回国前,作为项目负责人(PI或者co-PI/co-I)曾获美国国家卫生研究院(NIH)、美国国家科学基金(NSF)等重要科研项目;作为主要研发人员参与经费超过4500万美元的多个美国联邦政府项目。回国后,作为项目负责人或者核心成员承担或参与了包括科技部863计划生物3D打印专项、工信部增材制造专项、广东省3D打印重大专项等国家、省、市级科技计划项目约15项。
至今,已发表SCI论文、会议论文、书籍论著等200余篇(包括《Nature Biotechnology》封面亮点论文),SCI论文引用超过3500次。申请国内外专利65件,其中获美国、欧洲、日本、中国等授权专利53件。曾获国际奖项包括美国材料学会2004年会研究生金奖等奖励和荣誉10余项;国内奖项包括第四届侨界贡献奖(国家级)、2018年中国专利银奖(国家级)、2016年广东省专利金奖(省部级)、2017年广东省科学技术奖(省部级)等近10项。多项专利技术已实现成果转化,首个细胞打印技术专利授权美国纳斯达克上市企业Organovo公司。另外,徐弢教授的生物材料制造专利技术还开发出多个用于组织修复的医疗器械产品,实现包括人工硬脑膜等多个系列创新产品的成果转化,获得中国食品药品监督局及欧盟颁发的注册证共9项,产品在包括英国剑桥大学附属医院等全球60多个国家和地区医院使用,已为全球超过20万病人提供直接帮助。


1.代表性论文:
近三年发表的代表性SCI论文和被引频次超过100的部分论文列举如下:
(1)近三年发表的代表性SCI论文:
[1] Libiao Liu, Xinda Li, Xin zhi Zhang, Tao Xu*. Biomanufacturing of a novel in vitro biomimetic blood brain barrier model. BIOFABRICATION. Moderate Revision.
[2] Hongqing Chen, Jing Zhang, Xinda Li, Libiao Liu, Xinzhi Zhang, Dongni Ren, Cheng Ma, Lei Zhang, Zhou Fei*, and Tao Xu*. Multi-level Customized 3D Printing for Autogenous Implants in Skull Tissue Engineering. BIOFABRICATION. Moderate Revision.
[3] Mohammed Albanna*, Kyle W. Binder*, Sean V. Murphy*, Jaehyun Kim, ShadiA. Qasem, Weixin Zhao, Josh Tan, Idris B. El-Amin, Dennis D. Dice, Julie Marco,Jason Green, Tao Xu, Aleksander Skardal, James H. Holmes, John D. Jackson,Anthony Atala and James J. Yoo. In Situ Bioprinting of Autologous Skin Cells Accelerates Wound Healing of Extensive Excisional Full-Thickness Wounds. Scientific Reports, 2019,12(9).
[4] Diao Jinfu, Zhang Chuanbao, Zhang Dainan, Wang Xiong, Zhang Jing, Ma Cheng, Deng Kunxue, Jiang Tao*, Jia Wang*, Xu Tao*. Role and mechanisms of a three-dimensional bioprinted microtissue model in promoting proliferation and invasion of growth-hormone-secreting pituitary adenoma cells. BIOFABRICATION. 2019,11(2).
[5] Wang X, Dai X, Zhang X, Ma C, Li X, Xu T*, Lan Q*. 3D bioprinted glioma cell-laden scaffolds enriching glioma stem cells via epithelial-mesenchymal transition. Journal of Biomedical Materials Research Part A.2019, 2(107):383-391.
[6] Moroni L*, Boland T, Burdick JA, De Maria C, Derby B, Forgacs G, Groll J, Li Q, Malda J, Mironov VA, Mota C, Nakamura M, Shu WM, Takeuchi S, Woodfield TBF, Xu T, Yoo JJ, Vozzi, G. Biofabrication: A Guide to Technology and Terminology. Trends in Biotechnology. 2018, 36(4): 384-402.
[7] Wang X, Zhang XZ, Li XD, Xu T*. Tumor-like lung cancer model based on 3D bioprinting. 3 Biotech. 2018, 12(8).
[8] He JY, Shao JS, Li XD, Huang Q*, Xu T*. Bioprinting of Coaxial Multicellular Structures for a 3D Co-culture Model. Bioprinting. 2018, 11.
[9] Wang XZ, Li XD, Dai XL, Zhang XZ, Zhang J, Xu T*, Lan Q*. Bioprinting of glioma stem cells improves their endotheliogenic potential. Colloids and Surfaces B: Biointerfaces. 2018, (171):629-637.
[10]Xuanzhi Wang, Xinda Li, Xingliang Dai, Xinzhi Zhang, Jing Zhang, Tao Xu*,Qing Lan*, Coaxial extrusion bioprinted shell-core hydrogel microfibers mimic glioma microenvironment and enhance the drug resistance of cancer cells. Colloids and Surfaces B: Biointerfaces. 2018, (171):291-299.
[11]Xinda Li, Xiong Wang, Xuanzhi Wang, Hongqing Chen, Xinzhi Zhang, Lian Zhou*, Tao Xu*.3D Bioprinted Rat Schwann Cell-laden Structures with shape flexibility and Enhanced Nerve Growth Factor Expression. 3 Biotech. 2018, 8(8):342.
[12]Wang X, Dai X, Zhang X, Li X, Xu T*, Lan Q*. Enrichment of glioma stem cell-like cells on 3D porous scaffolds composed of different extracellular matrix. Biochemical & Biophysical Research Communications, 2018, 498(4):1052-1057.
[13]Li X, Liu L, Zhang X, Xu T*. Research and development of 3D printed vasculature constructs. BIOFABRICATION, 2018, 10(3):032002.
[14]Haining Sun, Huayao Lv, Fanghui Qiu, Duolun Sun, *Yue Gao, Ning Chen, YongKe Zheng, Kunxue Deng, Yaya Yang, Haitao Zhang, Tao Xu*, Dongni Ren. Clinical application of a 3D-printed scaffold in chronic wound treatment: a case series, Journal of Wound Care, 2018,5(27):262-271.
[15]Kunxue Deng, Yaya Yang, Yiquan Ke, Chengyi Luo, Man Liu, Yuting Deng, Quan Tian, Yuyu Yuan, Tun Yuan*, Tao Xu*. A novel biomimetic composite substitute of PLLA/gelatin nanofiber membrane for dura repairing. Neurological Research, 2017,39(9):819-829.
[16]Xingliang Dai, Libiao Liu, Jia Ouyang, Xinda Li, Xinzhi Zhang, Qing Lan* , Tao Xu*.Coaxial 3D bioprinting of self-assembled multicellular heterogeneous tumor fibers. Scientific Reports, 2017,7(1) 1457.
[17]Lai KL, Zhang JZ, Wang GS, Luo X, Liu M, Zhang XZ, Yuan YY, Liu B, Xu T*. A biomimetic mesh for treating female stress urinary incontinence. BIOFABRICATION, 2017, 9(1) : 015008.
[18]Yin Kang, Liang-Hong Yu, Tao Xu, Shu-Fa Zheng, Pei-Sen Yao, Man Liu, Yuan-Xiang Lin, Zhang-Ya Lin,Xiao-Min Fan , De-Zhi Kang*. Three-dimensional printing technology for treatment of intracranial aneurysm. Chinese Neurosurgical Journal ,2016, 2:24.
[19]Dai XL, Ma C, Lan Q*, Xu T*. 3D bioprinted glioma stem cells for brain tumor model and applications of drug susceptibility.BIOFABRICATION, 2016, 8(4):045005.
[20]Sun BB, Wu T, He LP, Zhang JG, Yuan YY, Huang XJ, EI-Hamshary H, Al-Deyab SS, Xu T*, Mo XM*. Development of Dual Neurotrophins-Encapsulated Electrospun Nanofibrous Scaffolds for Peripheral Nerve Regeneration Binbin. Journal of Biomedical Nanotechnology, 2016, 12(11):1987-2000.
[21]Deng KX,Ye X, Yang YY, Liu M, Ayyad A, Zhao YL, Yuan YY, Zhao JZ, Xu T*. Evaluation of efficacy and biocompatibility of a new absorbable synthetic substitute as a dural onlay graft in a large animal model, Neurological Research,2016:38(9):799-808.
[22]Lan Q* , Chen AL, Zhang T, Li GW, Zhu Q, Fan XM, Ma C, Xu T*. Development of Three-Dimensional Printed Craniocerebral Models for Simulated Neurosurgery. World Neurosurgery, 2016,91: 434-442.
[23]Ding J, Deng M,Song XC,Chen C,Lai KL, Wang GS, Yuan YY, Xu T ,Zhu L*. Nanofibrous biomimetic mesh can be used for pelvic reconstructive surgery a randomized study. Journal of the Mechanical Behavior of Biomedical Materials:2016, 61(1): 26-35.
[24]Groll J*, Boland T, Blunk T, Burdick J, Cho DW, Dalton P, Derby B, Forgacs G, Li Q, Mironov V, Moroni L, Nakamura M, Shu WM, Takeuchi S, Vozzi G, Woodfield T, Xu T, Yoo J, Malda J. Biofabrication: Reappraising the definition of an evolving field. BIOFABRICATION,2016, 8(1):013001-013001.
[26]Shi ZD, Xu T*, Yuan YY, Deng KX, Liu M, Ke YQ, Luo CY, Yuan T, Ayyad A.A New Absorbable Synthetic Substitute With Biomimetic Design for Dural Tissue Repair. Artificial Organs, 2016, 40(4):403-413.
[27]Yin Kang, Liang-Hong Yu, Tao Xu, Shu-Fa Zheng, Pei-Sen Yao, Man Liu, Yuan-Xiang Lin, Zhang-Ya Lin,Xiao-Min Fan and De-Zhi Kang*.Three-dimensional printing technology for treatment of intracranial aneurysm. Chinese Neurosurgical Journal (2016) 2:24.
(2)截至2019年3月,发表的被引频次超过100(Web of Science数据库)的部分论文列举如下:
[1] Xu T, Binder KW, Albanna MZ, Dice D, Zhao W, Yoo JJ, Atala A* .Hybrid printing of mechanically and biologically improved constructs for cartilage tissue engineering applications. Biofabrication, 2013 , 5(1): 015001.(被引频次203次)
[2] Xu T, Zhao W, Zhu JM, Albanna MZ, Yoo JJ, Atala A*. Complex heterogeneous tissue constructs containing multiple cell types prepared by inkjet printing technology. Biomaterials, 2013, 34(1): 130-139. (被引频次221次)
[3] De Coppi P, Bartsch G, Siddiqui MM, Xu T, Santos CC, Perin L, Mostoslavsky G, Serre AC, Snyder EY, Yoo JJ, Furth ME, Soker S, Atala A*. Isolation of amniotic stem cell lines with potential for Therapy. Nature Biotechnology, 2007, 25(1):100-106. (被引频次1132次)
[4] Boland T*, Xu T, Damon BJ, Manley B, Kesari P, Jalota S, Bhaduri S. Drop-on-demand printing of cells and materials for designer tissue constructs. Materials Science And Engineering C, 2007, 27(3): 372-376. (被引频次124次)
[5] Boland T*, Xu T, Damon B, Cui X. “Application of inkjet printing to tissue engineering”. Biotechnology Journal. 1(9):910-917 (2006). (被引频次426次)
[6] Xu T, Gregory CA, Molnar P, Cui X, Jalota S, Bhaduri SB, Boland T*. Viability and electrophysiology of neural cell structures generated by the inkjet printing method. Biomaterials. 2006, 27(19):3580-3588. (被引频次257次)
[7] Xu T, Jin J, Gregory C, Hickman JJ*, Boland T*. Inkjet printing of viable mammalian cells. Biomaterials. 2005, 26(1): 93-99. (被引频次534次)
[8] Roth EA, Xu T, Das M, Gregory C, Hickman JJ, Boland T*. “Inkjet printing for high-throughput cell patterning”. Biomaterials. 25 (17): 3707-3715 (2004). (被引频次408次)
2、代表性专著章节(6篇)
[1] Lai KL, Xu T*. “Bioprinting of Cartilage”. Book Chapter in “Essentials of 3D Biofabrication and Translation”. Academic Press, ISBN: 50, 2015.
[2] Xu T*, Reyna-Soriano D, Rodriguez-Dévora JI, Bhuyan M, Boland T. “Organ Printing”. Book Chapter in “Biomaterials and Regenerative Medicine”. Cambridge University Press, ISBN: 97, 2014.
[3] Xu T*, Rodriguez-Dévora JI, Reyna-Soriano D, Mohammod B, Zhu L, Wang K, Yuan Y. “Bioprinting for constructing microvascular systems for organs”. Book chapter in “Rapid Prototyping of Biomaterials”. Woodhead Publishing, ISBN-13: 92, 2013.
[4] Xu T*, Rodriguez-Devora JI, Reyna-Sorianob D, Mohammod B, Zhu L, Wang K, Yuan Y. “Principles of bioprinting technology”. Book chapter in “Regenerative Medicine Applications in Organ Transplantation”. Elsevier Press, ISBN: 978-0-12-398523-1, 2013.
[5] Xu Tao*, Yuan YY, James J. Yoo.“Cell Source for Tissue and Organ Printing”. Book chapter in Printed Biomaterial, Springer, ISBN 978-1-4419-1394-4, 2010.
[6] Xu T*, Lee SJ, Yoo JJ. “Three-Dimensional Tissue Printing Technology”. Book chapter in “Manual in Biomedical Research-Vol.4: a Manual for Biomaterials/scaffold Fabrication Technology”.World Scientific Press. Page 183-192, 2007.


3、在国际学术会议所作代表性重要报告:至今,徐弢教授已在国内外学术会议作大会报告、特邀报告等约100余次
4.代表性授权专利情况:已申请国内外专利65件,获授权专利53件。其中获授权发明专利42件,包括美国6件,欧盟2件,日本2件,墨西哥3件,澳大利亚、俄罗斯、韩国各1件,中国26件。获得授权的国际发明专利列举如下:
(1)?????????????????,韩国,授权日期:2018.4.30,专利号:KR .
(2)組織修復用繊維膜及びその製品と製造方法,日本,授权日期:2017.5.12,专利号:特願 **.
(3)DURAMADRE ARTIFICIAL Y SU MéTODO DE FABRICACIóN,墨西哥,授权日期:2017.02.20,专利号:MX/a/2015/008386.
(4)DURAMADRE ARTIFICIAL Y SU MéTODO DE FABRICACIóN,墨西哥,授权日期:2017.02.20,专利号:MX/a/2015/008387.
(5)Artificial Dura Mater and Manufacturing Method Thereof,欧盟,授权日期:2016.5.18,专利号:EP **.
(6)ARTIFICIAL DURA MATER AND MANUFACTURING METHOD THEREOF,美国,授权日期:2016.3.1,专利号:US **.
(7)Method for treating defective dura mater,美国,授权日期:2015.12.15,专利号:US**.
(8)Inkjet gene printing,美国,授权日期:2015.7.2,专利号:US **.
(9)DURAMADRE ARTIFICIAL Y SU MéTODO DE FABRICACIóN,墨西哥,授权日期:2015.3.26,专利号:MX .
(10)Treating defective dura with synthetic artificial dura substitute,美国,授权日期:2014.8.5,专利号:US **.
(11)Inkjet printing of tissues and cells,美国,授权日期:2014.4.8,专利号:US **.
(12)人工硬膜及びその製造方法,日本,授权日期:2014.12.5,专利号:特願**.
(13)Inkjet gene printing,德国,授权日期:2014.8.20,专利号:EP **.
(14)Inkjet gene printing,澳大利亚,授权日期:2013.10.17,专利号:AU .
(15)ИСКУССТВЕННАЯ ТВЕРДАЯ МОЗГОВАЯ ОБОЛОЧКА И СПОСОБ ЕЕ ПРОИЗВОДСТВА,俄罗斯,授权日期:2013.9.10,专利号:RU **.
(16)Inkjet printing of viable cells,美国,授权日期:2006.5.30,专利号:US **.


徐弢教授获得的代表性奖项情况列举如下:
(1)2018.12 第二十届中国专利银奖
(2)2018.12 第二十届中国专利优秀奖
(3)2017.02 广东省科学技术奖三等奖
(4)2017.03 广州市科学技术进步奖一等奖
(5)2016.08 广东省专利金奖
(6)2014.04 中央第十批“”创新人才
(7)2014.03 2013年国家创新人才推进计划“创新创业人才”
(8)2012.08 第四届侨界贡献奖—创新团队
(9)2010.04 美国《Biofabrication》杂志2009年度最受关注论文
(10) 2007.05 美国NC组织工程及再生医学大会论文一等奖
(11) 2007.12 美国《时代》杂志评为2007年度十大医学突破之一“羊水干细胞研究”
(12)2006.09 最佳论文奖,全球数字化制造大会
(13)2005.04 美国Clemson大学杰出研究者
(14)2005.03 最佳青年研究者奖,第二届世界生物打印、成型和组装年会
(15)2004.04 美国材料研究协会(MRS)研究生金奖


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