乔爱科

职称职务:教授

E-mail:qak@bjut.edu.cn

通讯地址:北京市朝阳区平乐园100号,北京工业大学生物医学工程系,北京100124

基本信息

乔爱科,教授,北京工业大学生物医学工程系教师。主要从事生物医学工程、生物力学、植/介入医疗器材等方面的教学和科研工作。

主要社会兼职:

中国生物医学工程学会生物力学分会委员;中国生物材料学会材料生物力学专业委员会委员;北京生物医学工程学会生物力学专业委员会委员;亚太基层卫生协会超声医学分会人工智能专委会副主任委员;中国生物物理学会生物力学和生物流变学专业委员会委员;世界华人生物医学工程协会(WACBE)会员。《北京生物医学工程》副主编,《医用生物力学》、《北京工业大学学报》、《生物物理学》、《Medicine in Novel Technology and Devices》、《Archives of Clinical Hypertension》、《Biomedical Engineering Communications》等国内外学术期刊编委。百余份国际、国内学术期刊的审稿人。国家科技部重点研发计划、国家自然科学基金等项目评审专家。

教育经历

1996.8~2000.6 北京工业大学数理学院,博士生,专业:流体力学

1989.8~1992.3 北京工业大学基础部,研究生,专业:机械设计

1985.8~1989.7 华北电力学院机械系,本科生,专业:机械制造工艺

从业经历

2007.3~ 北京工业大学生物医学工程系

2003.9~2005.2 日本北陆先端科学技术大学院大学,访问学者

2002.6~2004.5 汕头大学,在职博士后

1999.7~2007.2 北京工业大学机电学院

1992.4~1999.6 北京工业大学基础部

研究方向

研究工作1:血管内支架相关研究工作,包括建模、仿真、实验和应用等。对主动脉狭窄、主动脉瘤、脑动脉瘤、主动脉夹层等心血管疾病行支架介入治疗的血流动力学等问题进行了仿真和实验研究,对可降解锌合金支架的创新设计、结构改进、疲劳分析、腐蚀降解等力学问题进行了仿真和实验研究,开展了支架降解与血管重建耦合动力学的计算和实验研究。

研究工作2:先天性心脏病相关研究工作,包括临床手术规划的生物力学问题以及医疗器械研发等。对二叶式/三叶式主动脉瓣膜异常、大动脉转位、法洛四联症、房间隔缺损、室间隔缺损、动脉导管未闭等先天性心脏病行手术和介入治疗的血流动力学等问题进行了仿真和实验研究。基于集中参数模型进行的几何多尺度血流动力学数值模拟,以及基于心脏-血管模拟系统的离体模型实验,为改进先天性心脏病的手术方案、研发新型医疗器材、扩展临床应用等方面提供了重要的理论支持。针对手术器材,如人工瓣膜、人工心内隧道补片、人工血管等,进行力学性能分析和实验研究,为新材料研发、3D打印手术器材等奠定了力学基础。

科研项目

1.Experiment on mechanical integrity evaluation of degradable zinc wire under tensile load in flowing medium. Collaborative Research Project, Institute of Fluid Science, Tohoku University (J23R001). 2023.4-2024.3,项目负责人

2.适形贴壁支架的个性化设计方法与贴壁性能评价指数的构建研究,国家自然科学基金项目(12172018),2022.1-2025.12,项目负责人

3.Endovascular stent and vessel remodeling. Collaborative Research Project, Institute of Fluid Science, Tohoku University (J22R001). 2022.4-2023.3,项目负责人

4.可降解锌合金支架降解与血管重建的耦合效应建模分析研究,北京市教委-市自然科学基金联合项目(KZ202110005004),2021.1-2023.12,项目负责人

5.Endovascular stent and vessel remodeling. Collaborative Research Project, Institute of Fluid Science, Tohoku University (J21R001). 2021.4-2022.3,项目负责人

6.Endovascular stent and vessel remodeling. Collaborative Research Project, Institute of Fluid Science, Tohoku University (J20R001). 2020.4-2021.3,项目负责人

7.Mechanical Analysis of a Patented Biodegradable Zinc Alloy Stent Based on a Degradation Model. Collaborative Research Project, Institute of Fluid Science, Tohoku University (J19I010). 2019.4-2020.3,项目负责人

8.冠脉狭窄与心肌缺血定量关系的生物力学研究,国家自然科学基金重点项目(11832003),2019.1-2023.12,主要成员

9.基于超声和CT影像的冠脉血流储备分数无创计算方法研究,国家自然科学基金(11772015),2018.1-2021.12,项目负责人

10.可降解锌合金支架的支撑性能及结构优化研究,北京市教委科技计划重点项目暨北京市自然科学基金B类项目(KZ201710005007), 2017.1.1-2019.12.31,项目负责人

11.The sensitity analysis and multi-objective optimization of the biodegradable zinc alloy stent. Collaborative Research Project, Institute of Fluid Science, Tohoku University (J17I105). 2017.4-2018.3,项目负责人

12.大动脉调转术改进几何构型对主动脉瓣关闭不全影响的生物力学机理和手术规划研究,国家自然科学基金(11472023),2015.1-2018.12,项目负责人

13.椎动脉支架再狭窄的血流动力学仿真和实验研究,国家自然科学基金(81171107),2012.1-2015.12,项目负责人

14.颅内动脉瘤新型裸支架的血流动力学研究,国家自然科学基金(10972016),2010.1-2012.12,项目负责人

15.旁路搭桥转流术治疗DeBakey III型主动脉夹层的数值模拟研究,国家自然科学基金(10772010),2008.1-2010.12,项目负责人

16.动脉瘤支架流阻的计算和实验研究,北京市自然科学基金(3092004),2009.1-2011.12 ,项目负责人

17.动脉瘤支架治疗新技术的血流动力学研究,北京市自然科学基金(3062003),2006.1-2008.12,项目负责人

获奖情况

1.1998年9月,北京工业大学优秀青年骨干教师称号。

2.1999年12月,国家机械局科技进步奖三等奖(第4成员, 获奖项目“矿用自卸汽车CAD系统”,9917816)。

3.2004年12月,北京市科学技术奖二等奖(第2成员,获奖项目“生物力学对器官和组织研究”,2004基-2-006)。

4.2013年获得北京工业大学“我心中最喜爱的老师”荣誉称号。

5.2019年获得北京工业大学“我心中最喜爱的老师”提名奖。

代表性研究成果

n主要论文:

1.Wei H, Qu Z, Geng Z, Hou Q, Du T, Luo X, Qiu J, Qiao A(*). Effect of transcatheter aortic valve replacement on bicuspid coronary hemodynamics: A numerical study. Medicine in Novel Technology and Devices, 2023, 18(4):100239.

2.Zhang Y, Chen S, Zhang H, Ma C, Du T, Qiao A(*). Model construction and numerical simulation of arterial remodeling after stent implantation with variations of cell concentration. Medicine in Novel Technology and Devices, 2022, 16, 100144.

3.Hou Q, Tao K, Du T, Wei H, Zhang H, Chen S, Pan Y, Qiao A(*). A computational analysis of potential aortic dilation induced by the hemodynamic effects of bicuspid aortic valve phenotypes. Comput Methods Programs Biomed. 2022, 220:106811

4.李晓, 王俊杰, 柳思聪, 刘宁, 杨印龙, 杨尧, 范祥明, 乔爱科(*). 心室内隧道的补片形状设计及有限元分析.医用生物力学, 2022,37(01):98-104.

5.付文宇, 乔爱科(*). 远端侧-侧吻合冠脉搭桥术后血栓形成的数值模拟. 医用生物力学, 2022, 37(3): 403-409.

6.Song H, Qiao A(*). A New Approach through the Eye of a Needle and Its Potential Application in Bioscience. Molecular & Cellular Biomechanics, 2022,19(3), 159-164.

7.Ma X, Gao B, Tao L, Ding J, Li S,Qiao A(*), Chang Y. Hemodynamic study of the effect of the geometric height of leaflets on the performance of the aortic valve under aortic valve reconstruction. J Thorac Dis 2022;14(5):1515-1525.

8.Du T, Niu Y, Liu Y, Yang H, Qiao A(*), Niu X(*).Physical and Chemical Characterization of Biomineralized Collagen with Different Microstructures. Journal of Functional Biomaterials. 2022, 13(2), 57(1-11).

9.Wang S, Wu D, Li G, Peng K, Mu Y, Ohta M, Anzai H, Qiao A(*). Finite element analysis of the mechanical performance of a zinc alloy stent with the tenon-and-mortise structure. Technology and Health Care. 2022;30(2):351-359.

10.Chen S, Zhang H, Hou Q, Zhang Y and Qiao A (*). Multiscale Modeling of Vascular Remodeling Induced by Wall Shear Stress. Front. Physiol. 2022, 12(1):808999.

11.柳思聪, 张晗冰, 李晓, 刘宁, 乔爱科(*)。狭窄血管内适形贴壁支架的结构设计及生物力学性能的数值分析。生物医学工程学杂志。2021, 38(5): 858-868.

12.Li G, Song X, Wang H, Liu S, Ji J, Guo Y, Qiao A, Liu Y, Wang X. Prediction of Cerebral Aneurysm Hemodynamics With Porous-Medium Models of Flow-Diverting Stents via Deep Learning. Frontiers in physiology. 2021, 733444.

13.Zhang H, Xia J, Yang Y, Yang Q, Song H, Xie J, Ma Y, Hou Y, Qiao A (*). Branch flow distribution approach and its application in the calculation of fractional flow reserve in stenotic coronary artery. Mathematical Biosciences and Engineering. 2021, 18(5): 5978-5994.

14.Zhang H, Li G, Hou Q, Yang Y, Wei H, Yang Y, Qu Z, Xie J, Qiao A(*). Research on the Method of Predicting Fractional Flow Reserve Based on Multiple Independent Risk Factors. Front. Physiol. 2021, 12:716877.

15.Wang S, Wu D, Li G, Peng K, Mu Y, Ohta M, Anzai H, Qiao A(*). Finite element analysis of the mechanical performance of a zinc alloy stent with the tenon-and-mortise structure. Technology and Health Care: official journal of the European Society for Engineering and Medicine. 2021, Jul 23.

16.Hou Q, Liu G, Liu N, Zhang H, Qu Z, Zhang H, Li H, Pan Y, Qiao A(*). Effect of Valve Height on the Opening and Closing Performance of the Aortic Valve Under Aortic Root Dilatation. Front. Physiol. 2021, 12:697502.

17.乔爱科。血管里的“罗宾汉效应”。力学与实践. 2021, 43(02):308-312

18.Li G, Wang H, Zhang M, Tupin S, Qiao A, Liu Y, Ohta M, Anzai H. Prediction of 3D Cardiovascular hemodynamics before and after coronary artery bypass surgery via deep learning. Commun Biol. 2021, 4(1):99.

19.Han Y, Xia J, Jin L, Qiao A, Su T, Li Z, Xiong J, Wang H, Zhang Z. Computational fluid dynamics study of the effect of transverse sinus stenosis on the blood flow pattern in the ipsilateral superior curve of the sigmoid sinus. Eur Radiol. 2021, 31:6286–6294.

20.Liu C,Li YK,Ge QQ,Liu ZX,Qiao AK(*), Mu YL. Mechanical characteristics and in vitro degradation of biodegradable Zn-Al alloy. MATERIALS LETTERS, 2021, 300(10): 130181.

21.张晗冰,张愉,陈诗亮,崔新阳,彭坤,乔爱科。支架降解与血管重建耦合作用的生物力学建模分析研究综述。生物医学工程学杂志,2020, 37(6): 956-965

22.Peng K, Qiao A(*), Wang J, Ohta M, Cui X, Mu. Y. A novel structure design of biodegradable zinc alloy stent and its effects on reshaping stenotic vessel. Journal of Mechanics in Medicine and Biology. 2020, 20(6): 2050022.

23.Cheng Y, Qiao A, Yang Y and Fan X. Numerical simulation of hemodynamics in two models for total anomalous pulmonary venous connection surgery. Front Physiol. 2020,11:206.

24.Fu Y, Qiao A, Yang Y and Fan X. Numerical simulation of the effect of pulmonary vascular resistance on the hemodynamics of reoperation after failure of one and a half ventricle repair. Front Physiol. 2020,11:207.

25.Yang Y, Wang J, Qiao A, Fan X. Numerical simulation of the influence of geometric configurations on pressure difference in the intraventricular tunnel. Front Physiol. 2020,11:133.

26.张宏辉,乔爱科。基于冠状动脉形状阻力的血流储备分数数值模拟。医用生物力学。2020,35(5): 430-435

27.Wang D, Zhang X, Zu G., Qiao A, He Y, Mu Y. Compressive properties of biomedical open-cell Zn foam. Materials Research Express, 2019, 6(11), 115406.

28.Li G, Watanabe K, Anzai H, Song X,Qiao A,Ohta M. Pulse-Wave-Pattern Classification with a Convolutional Neural Network. Sci Rep. 2019,9(1):14930.

29.Cui X, Ren Q, Li G, Li Z, Qiao A (*). Influence of the Realistic Artery Geometry Parameters on a Coronary Stent Fatigue Life. International Journal of Computational Methods, 2019, 16(3):1842006~1-12.

30.Fu W, Qiao A (*).Pressure Increase after Stent Intervention Treatment for an Aneurysm Accompanied by a Stenosis. International Journal of Computational Methods, 2019,16(3):1842010~1-12.

31.Song X, Li G, Qiao A (*), Jin Z, Chen Z, You L.Association of Simultaneously Measured Limbs Blood Pressure Differences with Ankle-Brachial Index. International Journal of Computational Methods, 2019,16(3): 1842016-1~10.

32.Peng K, Cui X, Qiao A (*), Mu Y. Mechanical analysis of a novel biodegradable zinc alloy stent based on a degradation model. Biomed Eng Online. 2019,18(1):39(1-14).

33.李慧,潘友联,乔爱科(*),刘迎龙,董念国。瓣膜高度对移植主动脉瓣开闭性能的影响。生物医学工程学杂志。2019,36(2):199-205

34.彭坤,乔爱科(*)。新型可降解锌合金支架的结构设计及其力学性能分析。医用生物力学,2019,34(2):160-165

35.Fu W, Xia Q, Yan R, Qiao A(*). Numerical Investigations of the Mechanical Properties of Braided Vascular Stents. Bio-Medical Materials and Engineering. 2018,29 (1): 81–94.

36.马跃,侯阳,李东玉,刘兴利,乔爱科,侯映映,王玉科,郭启勇。建立及评价适于血流储备分数CT成像模拟的小型猪慢性冠状动脉狭窄模型。中国医学影像技术。2018,34(2):166-170

37.Qiao A(*), Song X, Peng K, Du G, Li G, Chen Z. Validity of CAVI measurements for diagnosing hypertension in middle-aged and elderly patients and correlations of these measurements with relevant factors. Technology and Health Care. 2017, 25 (S): S125–S134.

38.贾荣玺,马云菲,顾兆勇,潘友联,柳思聪,乔爱科(*),郭超,董念国,李晓锋,刘迎龙。窦管交界锥度对生物瓣影响的脉动流实验研究。生物医学工程学杂志。2017, 34(3):365-370

39.Fu W,ChengG, Yan R,Qiao A(*). Numerical Investigations of the Flexibility of Intravascular Braided Stent. Journal of Mechanics in Medicine & Biology, 2017, 17(4): 1750075.

40.Han Y, Yang Q, Yang Z, Xia J, Su T, Jin L(*),Qiao A(*), Yu J. Computational fluid dynamics simulation of hemodynamic alterations in sigmoid sinus diverticulum and ipsilateral upstream sinus stenosis after stent implantation in patients with pulsatile tinnitus. World Neurosurg. 2017, 106: 308-314.

41.Li H, Wei Y, Wang X, Liu T, Gu J, Li Z, Wang M, Zhao D, Qiao A, Liu Y, Zhu B. Multi-objective Optimizations of Biodegradable Polymer Stent Structure and Stent Micro-injection Molding Process. Polymers. 2017, 9, 20

42.Ma Y, Liu H, Hou Y, Qiao A, Hou Y, Yang Q, Guo Q. Instantaneous Wave-Free Ratio Derived from Coronary Computed Tomography Angiography in Evaluation of Ischemia-Causing Coronary Stenosis: Feasibility and Initial Clinical Research. Medicine. 2017,96(4):e5979.

43.Li H,Liu T,Wang M,Zhao D,Qiao A,Wang X,Gu J,Li Z,Zhu B. Design optimization of stent and its dilatation balloon using kriging surrogate model. BioMedical Engineering Online, 2017, 16(1).

44.Song X, Li G, Qiao A (*), Chen Z. Association of Simultaneously Measured Four-limb Blood Pressures with Cardiovascular Function: a Cross-sectional Study. BioMedical Engineering OnLine. 2016, 15(Suppl 2):147

45.Gu Z, Pan Y, Qiao A (*), Hu X, Dong N, Li X, Liu Y, Shang D. Numerical simulation of closure performance for neo-aortic valve for arterial switch operation. BioMedical Engineering OnLine. 2016 , 15(Suppl 2):150

46.Ren X, Qiao A(*), Song H, Song G, Jiao L. Influence of Bifurcation Angle on In-stent Restenosis at the Vertebral Artery Origin: A Simulation Study of Hemodynamics. J. Med. Biol. Eng. 2016, 36(4):555-562

47.Ren X, Fu Y, Qiao A (*). Influence of bifurcation diameter and angle on the vertebral artery origin stenosis: a simulation study of hemodynamics. Journal of Mechanics in Medicine and Biology. 2016, 16(6): 1650079 (1-18).

48.Qiao A(*), Dai X, Niu J and Jiao J. Hemodynamics in stented vertebral artery ostial stenosis based on computational fluid dynamics simulations. Computer Methods in Biomechanics and Biomedical Engineering. 2016, 19(11): 1190-1200.

49.BergP,RoloffC, ……,QiaoA, et al. The Computational Fluid Dynamics Rupture Challenge 2013–Phase II: Variability of Hemodynamic Simulations in Two Intracranial Aneurysms. Journal of Biomechanical Engineering. 2015,137(12), 121008 (1-13).

50.Morsi Y, Hellevik L, Qiao A, Vayalappil M C, Tu J and Yang W. Cardiovascular haemodynamics: Advancement of numerical and experimental diagnostic tools. Advances in Mechanical Engineering.1-3, 2015. DOI: 10.1177/1687814015581243

51.Lu J, Duan W, Qiao A(*). Finite element analysis of mechanics of neovessels with intraplaque hemorrhage in carotid atherosclerosis. BioMedical Engineering OnLine, 2015, 14:S3 (1-11).

52.Fu Y,Qiao A(*),Jin L(*), The influence of hemodynamics on the ulceration plaques of carotid artery stenosis. J. Mech. Med. Biol. 2015,15(1): 1550008-1~14.

53.Qiao A(*), Pan Y, Dong N.Fluid-Structure Interaction Simulation of Aortic Valve Closure with Various Sinotubular Junction and Sinus Diameters. Annuals of Biomedical Engineering. 2015, 43(6): 1363-1369.

54.Cito S,GeersAJ, Arroyo MP, Palero VR, Pallarés J, Vernet A, Blasco J, Román L. San , Fu W , Qiao A, Janiga G, Miura Y, Ohta M, Mendina M, and Usera G. Accuracy and Reproducibility of Patient-Specific Hemodynamics Models of Stented Intracranial Aneurysms: Report on the Virtual Intracranial Stenting Challenge 2011. Annals of Biomedical Engineering. 2015, 43(1): 154-167

55.Qiao A(*), Pan Y, Dong N. Modeling study of aortic root for Ross procedure: a structural finite element analysis. Journal of Heart Valve Disease. 2014,23(6):683-687

56.Qiao A (*), Yin W, Chu B. Numerical simulation of fluid–structure interaction in bypassed DeBakey III aortic dissection. Computer Methods in Biomechanics and Biomedical Engineering. 2015, 18(11):1173-1180

57.Qiao A(*), Han H, Ohta M, and Qian Y. Computational Simulations in the Cardiovascular System. The Scientific World Journal. Volume. 2014, http://dx.doi.org/10.1155/2014/421061

58.Li Y, Anzai H, Nakayama T, Shimizu Y, Miura Y, Qiao A(*), Ohta M. Simulation of hemodynamics in artery with aneurysm and stenosis with different geometric configuration. Journal of Biomechanical Science and Engineering. 2014,9(1): 13-0123(1-11).

59.Qiao A(*), Zhang Z. Numerical simulation of vertebral artery stenosis treated with different stents. J Biomech Eng. 2014, 136(4):041007-041007-9.

60.Qiao A(*), Zeng K.Numerical simulation of hemodynamics in intracranial saccular aneurysm treated with a novel stent. Neurological Research, 2013, 35(7): 701-708.

61.Niu J, Qiao A(*), Jiao L. Hemodynamic analysis of stent expansion ratio for the vertebral artery ostium stenosis intervention. Journal of Mechanics in Medicine and Biology. 2013,13(4):1350058~1-11.

62.Steinman DA. (*), …, Qiao A, et al. Variability of CFD Solutions for Pressure and Flow in a Giant Aneurysm: The SBC2012 CFD Challenge. Journal of Biomechanical Engineering, 2013, 135(2): 021015, 1-13.

63.Qiao A(*), Nan Q, Liu Y, Chang Y. Can interventional ablation be applied to the treatment of arterial aneurysm? Med Hypotheses, 2013,80 (4):373-375.

64.Fu W, Gu Z, Meng X, Chu B, Qiao A(*).Numerical simulation of hemodynamics in stented internal carotid aneurysm based on patient-specific model. Journal of Biomechanics. 2010,43(7):1337-1342

65.Sui Y, Ma B, Chu B, Qiao A(*). Optimization of Anastomotic Configuration in CABG Surgery. Commun Numer Meth Engng. 2009, 25(11):1097-1106.

66.Qiao A, Liu Y. Medical application oriented blood flow simulation. Clinical Biomechanics, 2008, 23(SUPLL.1): S130-S136

67.Qiao A, Liu Y. Numerical study of hemodynamics comparison between small and large femoral bypass grafts. Commun Numer Meth Engng. 2008, 24(11):1067-1078.

68.Qiao A, Matsuzawa T. Hemodynamic simulation in a novel design for femoral bypass grafts. Biorheology. 2007,44(2):103-124

69.Qiao A, Liu Y,GuoZ. Wall shear stresses in small and large 2-way bypass grafts. Medical Engineering & Physics, 2006, 28(3): 251-258

70.Qiao A,LiuY.Influenceof graft-host diameter ratio on the hemodynamics of CABG. Bio-medical Materials and Engineering. 2006, 16(3): 189-201

71.Qiao A, Liu Y, Li S, Zhao H. Numerical simulation of physiological blood flow in 2-way coronary artery bypass grafts. Journal of Biological Physics, 2005, 31(2): 161-182

72.Qiao AK, Guo XL, Wu SG, Zeng YJ, Xu XH. Numerical study of nonlinear pulsatile flow in S-shaped curved arteries. Medical Engineering & Physics, 2004, 26: 545-552

73.Qiao AK, Zeng YJ, Xu XH. Numerical simulations of stenosed femoral artery with symmetric 2-way bypass graft. Bio-Medical Materials and Engineering, 2004, 14(2), 167-174

n主要论著:

1.乔爱科主编,《机械CAD软件开发实用技术教程》,机械工业出版社,2008年7月出版。

2.刘莹、吴宗泽主编,乔爱科参编。《机械设计教程》,机械工业出版社,2008年7月第二版。国家教育部普通高等教育“十一五”国家级规划教材。

3.万小利、高志主编,乔爱科参编。《计算机辅助机械设计》,机械工业出版社,2003年3月出版。

4.Gao F, Qiao A, Matsuzawa T. Numerical Simulation in Aortic Arch Aneurysm. In “Etiology, Pathogenesis and Pathophysiology of Aortic Aneurysms and Aneurysm Rupture”, ed. REI:nhart Grundmann. ISBN 978-953-307-523-5, Publisher:InTech. Publication date: July 2011. pp207-222

5.乔爱科参编,中国学科发展战略:流体动力学。第二十二章,生物医学工程中的流体力学。pp501-520。科学出版社,2014.8

6.乔爱科参编,生物力学研究前沿系列:生物力学建模仿真与应用。上海交通大学出版社,2017.12 9787313184986/Q

主要专利:

1.乔爱科,吴萍。基于脉搏波的血液粘度无创检测方法,发明专利,201210370371.X

2.乔爱科,顾兆勇,贯建春,孟宪龙,张宏斌。一种血管内裸支架,发明专利,200810106140.1

3.乔爱科,潘友联。用于主动脉瓣叶游离缘悬浮手术的瓣叶成形器械,发明专利,201310503656.0

4.乔爱科,刘有军,任庆帅。沿真实牙弓轨迹扫描的数字化牙科曲面断层全景X光机,发明专利, 20140109951.2

5.乔爱科,潘友联。一种充液型笼球式主动脉瓣支架系统,发明专利,201310632394.8

6.乔爱科,卢金秋。一种不均匀厚度的双刀片切割球囊,发明专利,201410117540.8

7.乔爱科,潘友联。一种聚合物人工主动脉瓣膜,发明专利,201410146856.X

8.乔爱科,王俊杰,葛长森。一种放射性粒子介入治疗肿瘤的手术机器人系统及操作方法,发明专利,ZL 201510900372.4

9.乔爱科,崔新阳,任庆帅。一种用于放射性粒子支架内装配的装置及装配方法,发明专利,ZL201510762977.1

10.乔爱科,崔新阳,彭坤,任庆帅。带环向支撑条的血管支架,发明专利,ZL201610133245.0

11.穆永亮,祖国胤,史建超,乔爱科。一种生物医用可降解锌合金内植入材料及其板材制备方法, 发明专利, ZL201610487654.0

12.乔爱科,彭坤,夏俊,崔新阳,李靖,李子豪。榫卯结构支撑筋血管支架。发明专利,ZL201710402928.6

13.乔爱科,王斯睿,吴丹丹,王俊杰,彭坤,夏俊,程业阳,李晓。一种低轴向伸长率可降解支架结构。发明专利,ZL201811204035.1

14.乔爱科,彭坤,王俊杰,王斯睿,夏俊,程业阳,付言,侯倩文。可均匀扩张的高支撑刚度可降解支架结构设计。发明专利,ZL201711491848.9

n主要软件著作权:

1.生物芯片电极印刷质量检测系统V1.0,2008SRBJ0892

2.血流动力学有限元后处理软件,2008SRBJ1425

3.ANSYS结果后处理软件。2010SRBJ2324

4.人体脉搏波信号和血压数值采集的实时监测系统的软件。2014SR116216

5.人体四肢血压脉搏的实时监测系统。2015SR089203

6.椎动脉支架内再狭窄预测分析软件。2018SR87826

7.主动脉瓣钙化辅助诊断系统。2021SR0413408

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