祖籍山东临沂,上海交通大学医学院小儿心胸外科专业博士,现任上海儿童医学中心心胸外科副主任医师,硕士研究生导师。担任心外二病区医疗组组长;心血管第二党支部副书记;国家儿童医学中心“心肌病和心力衰竭诊疗中心”主任助理;国家儿童医学中心心血管专科联盟办公室秘书;上海市小儿先天性心脏病研究所虚拟仿真与辅助循环研究室副主任。累计参与完成先心纠治手术4000余例,主刀手术1100余例。曾以高级访问医生身份在慕尼黑德意志心脏中心进修心脏外科。 获得荣誉:‘’上海市普通高等学校优秀毕业生‘’;上海儿童医学中心“最佳住院总医师”,“Belfer-Shen Award for Outstanding Young Pediatrician”奖;“中国医师协会心血管外科医师分会优秀青年医师奖学金提名奖”,“中国心脏大会-2019中国先天性心脏病青年菁英竞赛二等奖”,中国社科院健康业发展研究中心、好大夫在线联合评选的“2019年度好大夫”等。 学会及社会任职:中国医师协会心血管外科医师分会青委会委员,上海市医学会心脏大血管外科专科分会青委会委员;上海市青联委员;上海市医药卫生青年联合会委员;国际电气和电子工程师协会(IEEE)国际会员;中国生物医学工程学会高级会员;中国医师协会系列期刊《智慧健康》杂志编委常委;中国医师协会系列期刊《世界最新医学信息文摘》杂志编委。 作为项目负责人承担科研课题7项:国家自然科学基金2项、教育部项目1项、上海市卫生局项目1项、上海市教委1项、上海交通大学医工(理)交叉研究基金2项。共计发表学术论文20余篇,其中SCI收录论文7篇,EI收录论文5篇。获得国家级专利授权8项。 专利: 1.孙琦,刘锦纷,孙彦隽,张海波,郑景浩,王伟,张玉奇 ,肌部室间隔缺损镶嵌治疗的导引钢丝定位和输送装置,2019.6.28,中国,201820051195.6; 2. 孙琦,刘锦纷,孙彦隽,张海波,郑景浩,前外侧小切口心脏手术动、静脉插管专用持管钳,2019.4.28,中国,201820050821.X; 3.孙琦,刘锦纷,孙彦隽,张海波,郑景浩,王伟,张玉奇 ,肺动脉瓣扩张设备,2018.12.5,中国,201720835293.4; 4. 孙琦,刘金龙,孙彦隽,刘锦纷,朱丽敏,徐维虹,一种延迟关胸皮肤切口密封及引流装置,2014.12.17,中国,201420456811.8; 5.孙彦隽,孙琦,朱丽敏,白洁,张马忠,刘锦纷,一种具有前端照明功能的气管导管专用导芯装置,2014.4.9,中国,201320581381.8; 6.徐维虹,孙琦,白洁,一种儿童桡动脉留置针固定装置,2016.1.27,中国,201520718804.5; 7.张海波,孙彦隽,孙琦,心脏外科深部缝合操作训练设备,2016.1.13,中国,201520677772.9; 8. 刘锦纷,孙彦隽,仇黎生,孙琦,洪海筏,一种胸骨支撑器,2013.1.16,中国,201220266088.8。 学术论著: [1] Qi Sun(#), Jinlong Liu(#), Haibo Zhang, Jinghao Zheng, Haifa Hong, Yanjun Sun, Huiwen Chen and Jinfen Liu(*),Qian Wang, Yingzheng Liu. Influence of exercise on three types of Fontan modifications: comparison by numerical simulations. Journal of Mechanics in Medicine and Biology. 14(1) :1450007 (16 pages) ,2014 (SCI收录) [2] Qi Sun(#), Jinlong Liu(#), Yi Qian, Haibo Zhang, Qian Wang, Yanjun Sun, Haifa Hong and Jinfen Liu(*). Computational Hemodynamic Analysis of Patient-specific Virtual Operations for Total Cavopulmonary Connection with Dual Superior Venae Cavae. European Journal of Cardio-thoracic Surgery. 45(3):564-569,2014 (SCI收录) [3] Jinlong Liu(#), Qi Sun, Haifa Hong, Yanjun Sun, Jinfen Liu(*), Yi Qian, Qian Wang, Mitsu Umezu,. Medical Image-based Hemodynamic Analysis for Modified Blalock-Taussig Shunt. Journal of Mechanics in Medicine and Biology. 15(3): 1550035 (16 pages),2015 (SCI收录) [4] Jinlong Liu(#), Yi Qian(*), Qi Sun, Jinfen Liu, and Mitsuo Umezu, Use of Computational Fluid Dynamics to Estimate Hemodynamic Effects of Respiration on Hypoplastic Left Heart Syndrome Surgery: Total Cavopulmonary Connection Treatments. The Scientific World Journal.2013:131597,2013 (SCI收录) [5] Qi Sun(#), Jinlong Liu, Yi Qian, Haifa Hong and Jinfen Liu(*). Using of Porous Portion to Simulate Pulmonary Resistance in the Computational Fluid Dynamic Models of Fontan Connection, 35th Annual International Conference of the IEEE EMBS, 3-7 July,2013, 481-484 , Osaka, Japan, 2013 (国际会议,IEEE收录) [6] Jinlong Liu(#), Qi Sun, Yi Qian, Haifa Hong, Jinfen Liu(*). Numerical Simulation and Hemodynamic Analysis of the Modified Blalock-Taussig Shunt, 35th Annual International Conference of the IEEE EMBS, 3-7 July, 2013, 207-710 , Osaka,Japan,2013 (国际会议,IEEE收录) [7] Jinlong Liu(#), Qi Sun, Mitsuo Umezu, Yi Qian, Haifa Hong, Zhou Du, Qian Wang, Yanjun Sun and Jinfen Liu(*), Influence of Conduit Angles on Hemodynamics of Modified Blalock-Taussig Shunt: Computational Analysis of Patient-specific Virtual Procedures, Life System Modeling and Simulation Communications in Computer and Information Science, 20-23 Sep,2014, 461:62-71, Shanghai, 2014 (EI/ISTP 收录) [8] Jinlong Liu(#), Qi Sun, Yi Qian, Haifa Hong, Zhou Du, Qian Wang, Yanjun Sun, Jinfen Liu(*),Hemodynamic Analysis of Modified Blalock-Taussig Shunt: Effects of Anastomosis Angle of the Conduit on Pulmonary Flow,The 2014 7th International Congress on Image and Signal Processing (CISP 2014) and the 2014 7th International Conference on BioMedical Engineering and Informatics (BMEI 2014), 14-16 Oct,2014, Dalian, 2014 (EI/ISTP/ IEEE 收录) [9] Weimin Zhang(#), Jinlong Liu(#), Qi Sun, Haifa Hong, Xiongqi Peng, Qian Wang, Lu Han, Le Mao, Qin Yan(*), Long-term Hemodynamic Effects of Artery Banding on Patient-specific Pulmonary Flow, The 2014 7th International Congress on Image and Signal Processing (CISP 2014) and the 2014 7th International Conference on BioMedical Engineering and Informatics (BMEI 2014), 14-16 Oct,2014, Dalian, 2014 (EI/ISTP/ IEEE 收录) [10] Le Mao(#), Jinlong Liu, Haifa Hong, Qi Sun, Qian Wang,Junrong Huang, Jinfen Liu, Zhongqun Zhu(*), Hemodynamic Analysis of Surgical Correction for Patient-specific Aortic Coarctation with Aortic Arch Hypoplasia by End-to-side Anastomosis,The 2014 7th International Congress on Image and Signal Processing (CISP 2014) and the 2014 7th International Conference on BioMedical Engineering and Informatics (BMEI 2014), 14-16 Oct,2014, Dalian, 2014 (EI/ISTP/ IEEE 收录) [11] (#), Hong H, Zhu Z, Lu Y, Sun Q, Liu Y, Liu J(*). Eur J Cardiothorac Surg. Extracardiac Fontan with direct cavopulmonary connections: midterm results. European Journal of Cardio-thoracic Surgery. (43):318-323,2013 (SCI 收录) [12] Qi Sun(#), Dawei Wan, Jinfen Liu(*) et al. Influence of antegrade pulmonary blood flow on the hemodynamic performance of bidirectional cavopulmonary anastomosis: A numerical study. Medical Engineering & Physics. (31):227-233,2009 (SCI收录) [13] 孙琦(#),孙彦隽,万大伟, 刘锦纷(*),洪海筏,王谦,刘应征,曹兆敏.计算流体力学模拟在功能性单心室患儿虚拟Fontan手术中的应用.中华小儿外科杂志.2009,30(9):593-596. [14] 孙琦(#),刘锦纷(*).计算流体力学在Fontan手术循环血流模拟中的应用.中华胸心血管外科杂志.2009,25(6):419-420. [15] Qi Sun(#), Dawei Wan, Jinfen Liu(*) et al. Patient-specific computational fluid dynamic simulation of a bilateral bidirectional Glenn connection. Medical & Biological Engineering & Computing. (46): 1153-1159,2008 (SCI 收录) [16] Qi Sun(#), Dawei Wan, Jinfen Liu(*) et al. Numerical Simulation of A Bidirectional Cavopulmonary Anastomosis Connection with Antegrade Pulmonary Blood Flow. IFMBE Proceedings. (19):139-142,2008(ISTP收录) [17] WAN Da-wei(#), SUN Qi, LIU Ying-zheng(*) et al. The Effects of Stenosis on the Hemodynamics within Pulmonary Artery Models: Numerical Simulation Studies. Journal of System Simulation. 20(19):5320-5323,2008. (EI收录) [18] 万大伟(#),孙琦,刘应征(*)等.人体主动脉弓内全三维血流动力学数值分析.医用生物力学. 23(4):279-283,2008. [19] 万大伟(#),孙琦,刘应征(*)等.双侧双向Glenn手术的全三维血液动力学数值分析.生物医学工程研究. 27(2):79-83,2008.
