分类导航
教师名录您的位置是:首页 > 师资队伍 > 教师名录

基本信息

 
梁夫友 特别研究员
船舶与海洋工程系
固定电话:34205120
电子邮件-Email:fuyouliang@sjtu.edu.cn
通讯地址:上海市东川路800号木兰船建大楼B423

个人简历

 
上海交通大学船舶海洋与建筑工程学院特别研究员、硕士/博士生导师,AO-SJTU生物力学联合实验室负责人,美国莱特州立大学研究生院兼职博士生导师,日本理化学研究所客座研究员。主要从事生物力学与计算流体力学方面的研究工作,研究课题涉及人体血液循环系统的理论建模与计算机仿真、医工交叉研究以及医疗器械理论与产品研发等。已在学术期刊及会议上发表论文六十余篇(其中SCI论文27篇),论文被引用730余次,2015-2017连续三年入选了“中国高被引学者”榜单。曾多次受邀担任国际学术会议的组委会成员或分会主席,长期担任十余家国际学术期刊的审稿人。
2012.8- 上海交通大学船舶海洋与建筑工程学院船舶与海洋工程系,上海交通大学-千叶大学国际合作研究中心,特别研究员 硕士/博士生导师
2007.4-2012.8 日本理化学研究所 研究科学家
2007.3 日本国立千叶大学 人工系统科学专业 工学博士

研究方向

 
(1)生物流体力学,计算流体力学,人体血液循环系统的多尺度建模与计算机仿真(基础理论研究)
(2)心血管疾病的计算机辅助诊断与治疗(医工交叉研究)
(3)基于生物力学原理的医疗器械原创技术及产品研发(产学研医结合研究,已完成产品转化2项)
(4)深潜、航天等特殊环境下的循环系统生理学与生命保障系统研究
*本研究室着重培养多学科交叉的复合型人才,欢迎有船舶与海洋工程、力学、机械工程、数学或生物医学工程教育背景的学生报考博士、硕士研究生,同时欢迎本科生来研究室参加科研实践活动。
*实验室研究积累丰富,对报考学生的生物力学教育背景无要求。
*实验室与企业、三甲医院共建生物力学联合实验室,除为学生提供奖学金外,也为锻炼学生的产医研综合能力提供良好的平台。
*博士生可推荐攻读上海交通大学、日本千叶大学双博士学位,硕士生有赴日本交流学习的机会。

学术兼职

 
2015.9至今 《Frontiers in Bioengineering and Biotechnology》 编委
2016.3至今 《Journal of Hydrodynamics》、《水动力学研究与进展》 编委
2014.09-2019.6 美国莱特州立大学 研究生院客座教员,博士/硕士生导师
2013.11-12 东京大学 短期访问学者
2012.9-2016.3 日本理化学研究所 客座研究员
2014.8- 中国生物医学工程学会 高级会员
2010- 美国机械工程师学会(ASME) 会员
2010- 国际电气与电子工程师学会 (IEEE) 会员
2005-2012 日本机械工程师学会(JSME) 正会员

科研项目

 
(1)2017.09-2020.09 国际联合实验室项目,“AO-SJTU生物力学联合实验室”,项目/实验室负责人
(2)2016/12-2019/06 申康-三年行动计划-专科疾病临床五新转化项目, “4D-CTA联合血流动力学预测脑动脉瘤破裂的新方法”,合作方负责人
(3)2016/12-2019/06 申康-三年行动计划-疑难疾病精准治疗攻关项目, “基于临床、立体形态及血流动力学四维评价指导小型脑动脉瘤的精准干预策略”,合作方负责人
(4)2017.01-2018.12 国家自然科学基金国际(地区)合作与交流项目,“基于患者个体化模型的冠脉循环功能障碍评估”,项目负责人
(5)2017.01-2019.12上海交通大学医工交叉研究基金面上项目, “基于临床数据和生物力学模型融合技术的冠脉血流储备分数估测方法在稳定性冠心病患者介入中的应用研究” 合作方负责人
(6)2016.01-2018.12 上海交通大学多学科交叉培育项目,“基于影像学信息和力学模型融合技术的大脑前交通动脉瘤血流特征和破裂机制研究” 合作方负责人
(7)2014.01-2017.12 国家自然科学基金面上项目,“基于临床数据-计算模型融合技术的心血管功能定量评估”项目负责人
(8)2014.12-2015.12,企业委托课题,“基于生物力学原理的腕式血压计算法优化”,项目负责人
(9)2015.4-2015.12,企业委托课题,“AVI的临床价值验证及其影响因子研究”,项目负责人
(10)2013.01-2015.12 上海交通大学医工交叉研究基金面上项目, “通过临床数据及计算机模型介导的心功能定量评价” 合作方负责人

代表性论文及专著

 
杂志论文:
[1]Fuyou Liang*, Debao Guan, Jordi Alastruey. Determinant factors for arterial hemodynamics in hypertension: theoretical insights from a computational model-based study. Journal of Biomechanical Engineering-Transactions of the ASME, 2017, doi:10.1115/1.4038430. (SCI, IF=2.1)
[2]Tianqi Wang, Fuyou Liang*, Zunqiang Zhou, Lu Shi. A computational model of the hepatic circulation applied to analyze the sensitivity of hepatic venous pressure gradient (HVPG) in liver cirrhosis. Journal of Biomechanics, 2017, 65: 23–31. (SCI, IF=2.67).
[3]Picone DS, Schultz MG, Otahal P, Aakhus S, Al-Jumaily AM, Black JA, Bos WJ, Chambers JB, Chen CH, Cheng HM, Cremer A, Davies JE, Dwyer N, Gould BA, Hughes AD, Lacy PS, Laugesen E, Liang F Y,…Sharman JE*. Accuracy of Cuff-Measured Blood Pressure: Systematic Reviews and Meta-Analyses. J Am Coll Cardiol. 2017, 70(5):572-586. (SCI, IF=19.90).
[4]Y. Zhang, P. Yin, Z. Xu, Y. Xie, C. Wang, Y. Fan, F. Liang, Z. Yin*. Non-Invasive Assessment of Early Atherosclerosis Based on New Arterial Stiffness Indices Measured with an Upper-Arm Oscillometric Device. The Tohoku Journal of Experimental Medicine, 2017, 241(4): 263-270. (SCI, IF=1.28).
[5]K. Sughimoto*, Y. Asakura, C.P. Brizard, F. Liang, T. Fujiwara, K. Miyaji, H. Liu. Impact of the location of the fenestration on Fontan circulation haemodynamics: a three-dimensional, computational model study. Cardiology in the Young, 2017, 1-6, doi: 10.1017/S1047951117000099. (SCI, IF=0.83).
[6]Fuyou Liang*, Xiaosheng Liu, Ryuhei Yamaguchi, Hao Liu. Sensitivity of flow patterns in aneurysms on the anterior communicating artery to anatomic variations of the cerebral arterial network. Journal of Biomechanics, 2016, 49:3731–3740. (SCI, IF=2.67).
[7]Debao Guan, Fuyou Liang*, Pierre A. Gremaud. Comparison of the Windkessel model and structured-tree model applied to prescribe outflow boundary conditions for a one-dimensional arterial tree model. Journal of Biomechanics, 49(9): 1583-1592, 2016 (SCI, IF=2.67).
[8]Zhipeng Deng, Fuyou Liang*. Numerical analysis of stress distribution in the upper arm tissues under an inflatable cuff: implications for noninvasive blood pressure measurement. Acta Mechanica Sinica, 2016, 32(5), 959-969. (SCI, IF=0.83).
[9]Hongtao Yu, George P. Huang, Zifeng Yang, Fuyou Liang, Bryan Ludwig. The influence of normal and early vascular aging on hemodynamic characteristics in cardio- and cerebro- vascular system. Journal of Biomechanical Engineering-Transactions of the ASME, 138(6): 061002, 2016. (SCI, IF=2.1)
[10]Ryo Inuzuka,Seiko Kuwata,Clara Kurishima,Fuyou Liang,Koichi Sughimoto,Hideaki Senzaki,Influence of Cardiac Function and Loading Conditions on the Myocardial Performance Index – Theoretical Analysis Based on a Mathematical Model –,Circulation Journal,2016,80(1):148-156 (SCI, IF=3.99)
[11]Hao Zhang,Naoya Fujiwara,Masaharu Kobayashi,Shigeki Yamada,Fuyou Liang,Shu Takagi,Marie Oshima,Development of a Numerical Method for Patient-Specific Cerebral Circulation Using 1D–0D Simulation of the Entire Cardiovascular System with SPECT Data,Annals of Biomedical Engineering, 2016, 44(8):2351-2363. (SCI, IF=3.1)
[12]李逸,殷兆芳,梁夫友(*),基于临床数据与循环系统模型融合技术的心血管功能评估中的误差分析,中国生物医学工程学报,2016,35(1):56-63
[13]韩旭,刘晓晟,梁夫友(*),出口边界条件对脑前交通动脉瘤内血流特征的影响,水动力学研究与进展(A辑),2015,30(6):692-700
[14]F.Y. Liang*, Z.F. Yin, Y.Q. Fan, K. Chen, C.Q. Wang. In vivo validation of an oscillometric method for estimating central aortic pressure. International Journal of Cardiology,2015,199:439-441. (SCI, IF=4.03)
[15]F.Y. Liang*, M. Oshima, H.X. Huang, H. Liu, S. Takagi. Numerical study of cerebroarterial hemodynamic changes following carotid artery operation: a comparison between multi-scale modeling and stand-alone three-dimensional modeling,Journal of Biomechanical Engineering- Transactions of the ASME, 2015,137(10):1-12. (SCI, IF=2.1)
[16]H. Liu*, F.Y. Liang, J. Wong, T. Fujiwara, W. Ye, K. Tsubota. Multi-scale Modeling of Hemodynamics in the Cardiovascular System. Acta Mechanica Sinica, 2015,31(4):446-464 (SCI, IF=0.82, review paper)
[17]T. Fujiwara, F.Y. Liang, K.I. Tsubota, M. Sugawara, Y.Q. Fan, H. Liu. Effects of vessel dynamics and compliance on human right coronary artery hemodynamics with/without stenosis. Journal of Biomechanical Science and Engineering, 2015, 10( 2): 1-12.
[18]K. Sughimoto, K. Okauchi, D. Zannino, C.P. Brizard, F.Y. Liang, M. Sugawara, K. Tsubota*. Total Cavopulmonary Connection is Superior to Atriopulmonary Connection Fontan in Preventing Thrombus Formation: Computer Simulation of Flow-Related Blood Coagulation. Pediatric cardiology, 2015, 1-6. (SCI, IF=1.31)
[19]F.Y. Liang*,H. Senzaki,C. Kurishima,K. Sughimoto,R. Inuzuka,H. Liu. Hemodynamic performance of the Fontan circulation compared with a normal biventricular circulation: a computational model study. American Journal of Physiology - Heart and Circulatory Physiology,2014,307(7):H1056-H1072. (SCI, IF=4.01)
[20]F.Y. Liang*,K. Sughimoto,K. Matsuo,H. Liu,S. Takagi. Patient-specific assessment of cardiovascular function by combination of clinical data and computational model with applications to patients undergoing Fontan operation. International Journal for Numerical Methods in Biomedical Engineering,2014,30(10):1000-1018. (SCI, IF=2.1)
[21]F.Y. Liang*. Numerical validation of a suprasystolic brachial cuff-based method for estimating aortic pressure. Bio-medical Materials and Engineering,2014,24(1):1053-1062. (SCI, IF=0.85)
[22]Z.P. Deng,C.G. Zhang,P. Yu,J. Shao,F.Y. Liang*. Estimation of left ventricular stroke volume based on pressure waves measured at the wrist: a method aimed at home-based use. Bio-medical Materials and Engineering,2014,24(6):2909-2918. (SCI, IF=0.85)
[23]K. Sughimoto*,Y. Takahara,K. Mogi,K. Yamazaki,K. Tsubota,F.Y. Liang,H. Liu. Blood flow dynamic improvement with aneurysm repair detected by a patient-specific model of multiple aortic aneurysms. Heart and Vessels,2014,29(3):404-412. (SCI, IF=2.10)
[24]K. Sughimoto*, F.Y. Liang*(共同通讯作者), Y. Takahara, K. Mogi, K. Yamazaki, S. Takagi, H. Liu. Assessment of cardiovascular function by combining clinical data with a computational model of the cardiovascular system. The Journal of Thoracic and Cardiovascular Surgery, 2013, 145(5):1367-72. (SCI,IF=3.99)
[25]F.Y. Liang*, S. Takagi, R. Himeno, H. Liu. A computational model of the cardiovascular system coupled with an upper-arm oscillometric cuff and its application to studying the suprasystolic cuff oscillation wave, concerning its value in assessing arterial stiffness. Computer Methods in Biomechanics and Biomedical Engineering, 2013, 16(2):141-157. (SCI,IF=1.79)
[26]F.Y. Liang*, H. Senzaki, Z. Yin, Y. Fan, K. Sughimoto, H. Liu. Transient Hemodynamic Changes upon Changing a BCPA into a TCPC in Staged Fontan Operation: A Computational Model Study. The Scientific World Journal, 2013, Article ID 486815. (SCI,IF=1.73)
[27]F.Y. Liang*,S. Takagi,H. Liu. The influences of cardiovascular properties on suprasystolic brachial cuff wave studied by a simple arterial-tree model. Journal of Mechanics in Medicine and Biology,2012,12(3):1-25. (SCI, IF=0.80)
[28]F.Y. Liang*,H. Liu,S. Takagi. The effects of brachial arterial stiffening on the accuracy of oscillometric blood pressure measurement: A computational model study. Journal of Biomechanical Science and Engineering,2012,7(1):15-30. (EI)
[29]R. Inuzuka*, F.Y. Liang, K. Sughimoto, H. Liu, H. Senzaki. Computational Simulations of Coronary Artery Flow in Supravalvular Aortic Stenosis, Circulation, 2012, 126, A16888. (SCI, IF=14.5)
[30]F.Y. Liang*,K. Fukasaku,S. Takagi,H. Liu. A computational model study of the influence of the anatomy of the circle of Willis on cerebral hyperperfusion following carotid artery surgery. BioMedical Engineering Online,2011,10:84. (SCI, IF=1.75)
[31]F.Y. Liang, S. Takagi*, R. Himeno, H. Liu. Multi-scale modeling of the human cardiovascular system with applications to aortic valvular and arterial stenoses. Med Biol Eng Comput, 2009, 47, 743-755. (SCI, IF=1.50)
[32]F.Y. Liang, S. Takagi, R. Himeno, H. Liu*. Biomechanical characterization of ventricular-arterial coupling during aging: a multi-scale model study, J Biomech, 2009, 42, 692-704. (SCI, IF=2.50)
[33]F.Y. Liang, H. Taniguchi, H. Liu*. A multi-scale computational method applied to the quantitative evaluation of the left ventricular function. Computers in Biology and Medicine, 2007, 37, 700-715. (SCI, IF=1.44)
[34]F.Y. Liang, R. Yamaguchi, H. Liu*. Fluid dynamics in normal and stenosed human renal arteries: An experimental and computational study. Journal of Biomechanical Science and Engineering, 2006, 1,171-182. (EI)
[35]F.Y. Liang, H. Liu*. Simulation of hemodynamic responses to the Valsalva maneuver: An integrative computational model of the cardiovascular system and the autonomic nervous system. Journal of Physiological Sciences, 2006, 56,45-65. (SCI, IF=1.25)
[36]F.Y. Liang*, H. Liu. A closed-loop lumped parameter computational model for human cardiovascular system. JSME International Journal (C), 2005,48,484-493.(SCI)
[37]Boyan Xu, Fuyou Liang, Shaoli Cai, Yunliang Qi 2005. Numerical analysis of fuel injection in intake manifold and intake process of a MPI natural gas engine. International Journal of Automotive Technology. Vol. 6, pp: 579-584. (SCI, IF: 0.5)
[38]Boyan Xu, Fuyou Liang, Shaoli Cai 2005. Numerical analysis and visualization of natural gas jet with multi-point injection system. Chinese Journal of Mechanical Engineering (English Edition). Vol. 18, No. 4. (SCI, IF: 0.4)
[39]Shaoli Cai, Boyan Xu and Fuyou Liang, 2004. A research on the fuel injection process in a MPI natural gas engine. Automotive Engineering, Vol. 26, No.4. (In Chinese).
[40]Boyan Xu, Fuyou Liang and Shaoli Cai 2004. Numerical analysis of the intake interference phenomena of the MPI natural gas engine, Chinese Journal of Mechanical Engineering Vol.40, No.2. (In Chinese) (EI)
[41]Fuyou Liang, Boyan Xu 2003. Numerical simulation of the intake process for the MPI natural gas engine with a longitudinal intake port structure. Journal of Shanghai Jiaotong University. Vol.37, No.10. (In Chinese) (EI)
[42]Fuyou Liang, Boyan Xu 2003. Numerical analysis of the intake process for the lean-burn natural gas engine. Journal of Shandong University. Vol.33, No.1. (In Chinese).
[43]Fuyou Liang, Boyan Xu 2002. Multi-dimensional numerical simulation of the jet for MPI natural gas engine. Journal of Shandong Engine, No.2. (In Chinese).
[44]Fuyou Liang, Boyan Xu and Shaoli Cai 2002. Numerical simulation and visualization of the unsteady state natural gas jet. Journal of Shandong University, Vol.32, No.1. (In Chinese)
[45]Fuyou Liang, Boyan Xu 2002. Research on the CNG jet with MPI system. Journal of Shandong Institute of Architecture and Engineering, Vol.17, No.1. (In Chinese).
特邀报告:
(1)Liang FY. Reduced-order multi-scale modeling of the human arterial system, BIOMAT 2017, Russia, 2017.10.30-11.03. (Keynote Speaker)
(2)Liang FY. Multi-scale modeling and simulation of cerebral hemodynamics. 2014 Workshop on Cerebral Blood Flow and Models of Neurovascular Coupling, FIELDS Institute, Canada, 2014.07.18. (Invited Speaker)
(3)Liang FY. Multi-scale modeling of the cardiovascular system and its applications in clinical practice and medical device development. College of Engineering & Computer Science, Wright State University, USA, 2014.04.25. (Invited Distinguished Speaker)
(4)梁夫友,人体循环系统的多尺度建模及其在临床医学和医疗器械开发方面的应用,2013复旦大学博士生论坛之力学、航空宇航科学与技术、生物医学工程篇,复旦大学,2013.12.14。(大会主题报告)
(5)Liang FY. Towards personalized modeling of cardiovascular hemodynamics. Institute of Industrial Science, The University of Tokyo, Japan, 2013.12.02. (Awarded Speaker)
(6)梁夫友,振動型カフを用いた動脈硬化度評価の最新進展,第11回日本AS学会,日本,2011.10.01。(Keynote speaker)
(7)Liang FY. An Integrated Mathematical Model of the Cardiovascular System and Its Interaction with the Autonomic Nervous System. Kyoto University, Japan, 2006.02.15. (Invited speaker)

教学工作

 
授课:
(1)小学期课程 《生物仿生的新动向:从自然界的生物力学到生命医学工程》 面向本科生
(2)通识课 《力学改变生活》(人体生物力学)面向本科生

本科生科研项目:
(1)李政道“䇹政基金”项目4项,担任䇹政导师,指导本科生4名(结题3项,在研1项)
(2)课程创新实验项目1项,本科生4名(已结题、综合评分优)
(3)校级PRP项目3项,本科生6名(已结题)
(4)大学生创新计划项目3项,本科生7名(已结题)
(5)卓越工程师班导师,指导本科生4名(在读)
(6)本科生毕业论文,本科生6名(已毕业6名、4名赴海外留学)
研究生培养:
博士生3名(在读)
硕士生9名(毕业3名,在读6名)

软件版权登记及专利

 
发明专利:
(1)梁夫友,李逸,李力军,基于振荡式血压计信号的中心动脉压检测系统,专利号:ZL201310450330.6
(2)Y Saito, R Himeno, S Takagi, F Liang,VASCULAR VISCOELASTICITY EVALUATION DEVICE, VASCULAR VISCOELASTICITY EVALUATION METHOD, AND PROGRAM. US Patent 20160051151

荣誉奖励

 
(1)2017.09 上海市力学学会优秀青年学者 一等奖
(2)2015-2017连续三年入选“中国高被引学者”榜单
(3)2015.10 “优秀论文奖”,关德宝、梁夫友*,“末梢动脉的结构树模型与闭环式循环系统的耦合及其与RC电路模型的比较”第十一届全国生物力学学术会议暨第十三届全国生物流变学学术会议(指导教师)
(4)2016 入选船建学院“优青”培养计划(给予硕士、博士生额外助研补贴)

文件共享区

 
NO. 文件 大小 修改时期 操作
 

网站地图|办事指南|人才招聘|旧版入口|联系我们

版权所有 © 2014 上海交通大学船舶海洋与建筑工程学院 沪交ICP备05053