个人简述:
常宇教授,博士生导师,北京工业大学生命科学与生物工程学院副院长,体外生命支持实验室负责人。从事心血管医学工程与医疗装备方面的研究。北京精准医学会副理事长,中国心胸血管麻醉学会体外生命支持分会副主任委员,中国医师协会心血管外科分会心衰专业委员会委员,全国生物力学学会青年工作委员会委员。常宇教授于2004年获得工学博士学位(PKNU);2005 获得北京市优秀人才称号,2006 年获得北京市科技新星称号,并且被纳入这两项北京市的人才培养计划。2011年在华盛顿大学(UW)做高级访问学者。2012年被评为北京工业大学优秀硕士论文指导老师。2014年被评为“京华人才”。常宇教授共主持和参加的科研项目包括国家级、省部级30余项,发表论文60余篇,获得国家发明专利10项,出版专著2部。指导研究生30余人,其中外国留学生3人,博士研究生8人。研究生中多人出国联合培养、国家奖学金、国家留学基金、荣获得十佳毕业生、北京市优秀毕业生等奖励以及校内各种奖项。指导本科生30余人完成毕业论文,指导本科生获得国际数学建模比赛 2 等奖、国家创新创业类大赛奖项、多人保送研究生和出国深造。
科研工作:
主要发表论文——[1] CHANG Y,GAO B.Modeling and Identification of an intra-Aorta Pump[J].ASAIO JOURNAL,2010,56(6):504-509.[2] CHANG Y,GAO B.A Global Sliding Mode Controller Design for an intra-Aorta Pump[J].ASAIO JOURNAL,2010,56(6):510-516.[3] GAO B,NIE LY,CHANG Y,ZENG Y.Physiological Control of intra-aorta Pump Based on Heart Rate[J].ASAIO JOURNAL,2011,57(3):152-157.[4] CHANG Y,GAO B,GU KY.A Model-Free Adaptive Control to a Blood Pump Based on Heart Rate[J].ASAIO JOURNAL,2011,57(4):262-267.[5] GAO B,GU KY,ZENG Y,LIU Y J,CHANG Y.A Blood Assist Index Control by Intra-aorta Pump: A Control Strategy for Ventricular Recovery[J].ASAIO JOURNAL,2011,57(5):358-362.[6] GAO B,GU KY,ZENG Y,CHANG Y.An Anti-Suction Control for an Intra-Aorta Pump Using Blood Assistant Index:A Numerical Simulation[J].Artif Organs,2012,36(3):275-290.[7] SUN XJ,CHANG Y,YE YT,et al.The effect of dietary pigments on the color ation of Japanese ornamental carp[J].AQUACUL TURE,2012,342:62-68.[8] GAO B,CHANG Y,GU KY,ZENG Y,LIU YJ.Baroreflex Sensitivity Controller by Intra-Aortic Pump:A Potential Benefit for Heart Recovery[J].ASAIO JOURNAL,2012,58(3):197-203.[9] GU KY,CHANG Y,GAO B,LIU YJ,ZHANG Z,WAN F.Lumped Parameter Model for Heart Failure with Novel Regulating Mechanisms of Peripheral Resistance and Vascular Compliance[J].ASAIOJOURNAL,2012,58(3):223-231.[10] GAO B,CHANG Y,GU KY,ZENG Y,LIU YJ.A Pulsatile Control Algorithm of Continuous-Flow Pump for Heart Recovery[J].ASAIO JOURNAL,2012,58(4):343-352.[11] XUAN YJ,CHANG Y,GU KY,GAO B.Hemodynamic Simulation Study of a Novel Intra-Aorta Left Ventricular Assist Device[J].ASAIO JOURNAL,2012,58(5):462-469.[12] GU KY,CHANG Y,GAO B,LIU YJ.Computational Analysis of the Effect of the Control Model of Intraaorta Pump on Ventricular Unloading and Vessel Response[J].ASAIO JOURNAL,2012,58(5):455-461.[13] GAO B,CHANG Y,GU KY,LIU YJ.Physiological Controller of an Intra-Aorta Pump Based on Baroreflex Sensitivity[J].Artifial Organs,2012,36(12):1015-1025[14] GAO B,CHANG Y,XUAN Y J,ZENG Y,LIU YJ.The Hemodynamic Effect of the Support Mode for the Intra-Aorta Pump on the Cardiovascular System[J].Artificial Organs,2013,37(2):157-165[15] Kaiyun Gu, Yu Chang, Bin Gao, Feng Wan, Daniel Loisance, and Yi Zeng. Development of ventricular assist devices in China: present status, opportunities and challenges. European Journal of Cardio-Thoracic Surgery,2014,46: 1–7.[16] Zhang Qi,Gao Bin, Gu Kaiyun, Chang Yu, Xu Jinchao. The Study on Hemodynamic Effect of Varied Support Models of BJUT-II VAD on Coronary Artery: A Primary CFD Study. ASAIO J.2014 Nov-Dec 60(6):643-651.[17] Kaiyun Gu, Bin Gao, Yu Chang, and Yi Zeng. The Hemodynamic Effect of Phase Differences Between the BJUT-II Ventricular Assist Device and Native Heart on the Cardiovascular System. Artificial Organs,2014,38: 914-923.[18] Kaiyun Gu, Bin Gao, Yu Chang, Zheng Zhuo, and Yi Zeng. Does Left Ventricular Assist Device Lead to Anemia in Heart Failure Patients? A Meta-Analysis. Med Sci Tech, 2015 56: 84-90.