李鲍

职称职务：校聘研究员，博士生导师，生物医学工程系主任

E-mail：libao@bjut.edu.cn

通讯地址：北京市朝阳区平乐园100号北京工业大学生命楼B207

基本信息

教育背景

2015.09-2021.07北京工业大学 生物医学工程 博士

2011.09-2015.07江苏大学 生物医学工程 学士

工作经历

2021.08-至今 北京工业大学 生物医学工程 教师

课程教学

医学信息检索（自学），血流动力学

研究方向

血流动力学，人工智能，数字孪生，生物力学，医学图像处理，心脑血管疾病无创诊疗研究。

奖项荣誉

李鲍,刘有军，李珂冉,吴汉歌,梅哲.冠状动脉微循环阻力无创计算技术研究,第十届全国大学生生物医学工程创新设计竞赛一等奖, 2025.08；

李鲍,刘有军，马屹,朱明玉，戴宇轩.智能化、现场型心肌缺血无创诊断技术研发,第十届全国大学生生物医学工程创新设计竞赛三等奖, 2025.08；

李鲍,刘有军，杨滨旭，曹家瑞，李珂冉.冠状动脉自动分割与三维重建--心血管疾病智能诊疗先锋,北京市挑战杯三等奖, 2025.04；

李鲍,刘有军.基于流体粒子浓度和Physics-informed Point-Net的冠脉流场速度快速预测方法研究,第十四届全国生物力学大会优秀论文, 2024.8.

李鲍, 刘有军, 张艳萍, 等. 脑卒中实时无创诊断服务平台, 第二届全国博士后创新创业大赛北京赛区优秀项目, 2023.11；

李鲍, 刘金城, 孙昊, 温传棋. 基于可解释神经网络模型的冠状动脉精准分割,第七届全国大学生生物医学工程创新设计竞赛三等奖, 2022.08；

2023年北京工业大学立德树人优秀班主任；

中国生物医学工程学会会员；

中国生物材料学会会员。

主要科研项目/课题

[1]国家自然科学基金青年项目,基于冠脉微循环阻力代偿的瞬时无波幅比无创数值计算研究,2023-01-01至 2025-12-31,30万元,在研,主持;

[2]国家重点研发计划子课题,基于流体动力学与数据融合的缺血性心脑疾病计算模拟和临床验证-心血管系统自动分割和3D重建技术研究,2021-12-01 至 2026-11-30,30万元,在研,主持;

[3]北京市自然科学基金面上项目,智能化、现场型心肌缺血无创诊断技术研究,2024-01-01至2026-12-31,20万元,在研,主持;

[4]技术委托项目,明峰医疗基于流体力学的冠心病临床辅助决策系统,2024-01-01至2024-06-30 ,15万元,结题,主持;

[5]中国博士后科学基金面上项目, 基于血流动力学实时反馈调控的智能化体外反搏治疗策略研究,2021-09-01至2023-02-28, 8万元,结题,主持;

[6]北京市博士后工作经费资助项目,基于可解释深度学习的冠状动脉精准分割及3D建模方法研究,2022-01-01至2023-12-31,5.5万元,结题,主持;

[7]国家重点研发计划,基于体外反搏技术平台的循环系统智能化康复辅具研发, 2020YFC2004400, 2020-07-01至2023-06-30,521万元,结题,参与;

[8]国家自然科学基金重点项目,冠脉狭窄与心肌缺血定量关系的生物力学研究,11832003, 2019-01-01至2023-12-31,320万元,结题,参与;

[9]北京市自然科学基金-北京市教育委员会科技计划重点项目,基于血流动力学效应优化的体外反搏个性化治疗策略研究,2018-01 至2020-12, 80万元,结题,参与。

代表性成果

[1]B Li, H Sun, Y Yang, et al. High performance neural network for solving coronary artery flow velocity field based on fluid component concentration [J]. Physics of Fluids, 2025, 37: 011910.

[2]T Li, Y Liu, Y Yang, Z Wang, L Fan, Y Gong, J Liu,B Li*. A deep learning-based rapid strategy for computing wall shear stress in intracranial aneurysms [J]. Physics of Fluids, 2025, 37: 051906.

[3]B Li, G Li*, J Liu, et al. Deep-learning-based real-time individualization for reduce-order haemodynamic model [J]. Computers in Biology and Medicine, 2024, 174:108476. (SCI,中科院一区)

[4] L Zhang, Y Xu, G Baier, Y Liu,B Li*. Exploring the dynamical transitions on an epileptic hippocampal network model and its modulation strategy based on transcranial magneto-acoustical stimulation [J]. Nonlinear Dynamics, 2024, 112(11):9495–9513. (SCI, JCR一区, top)

[5] H Sun,B Li*, L Zhang, et al. Numerical study of hemodynamic changes in the Circle of Willis after stenosis of the internal carotid artery [J]. Computer Methods and Programs in Biomedicine, 2024, 243, 107881. (SCI, JCR一区, top)

[6]B Li, Y Liu, G Li, et al. A real-time patient-specific treatment strategy for enhanced external counterpulsation [J]. International Journal for Numerical Methods in Biomedical Engineering, 2024, e3808. (SCI, JCR二区)

[7]B Li, Y Liu, J Liu, et al. Cerebral multi-autoregulation model based enhanced external counterpulsation treatment planning for cerebral ischemic stroke [J]. Journal of Cerebral Blood Flow & Metabolism, 2023, 43(10): 1764-1778. (SCI, JCR一区, top)

[8] GF Li, DD Zhong,B Li*, et al. Sleep Deficits Inter-Link Lower Basal Forebrain-Posterior Cingulate Connectivity and Perceived Stress and Anxiety Bidirectionally in Young Men [J]. International Journal of Neuropsychopharmacology, 2023, 26(12): 879-889. (SCI, JCR一区)

[9] M Chen,B Li*, Y Liu, et al. Treatment strategy of different enhanced external counterpulsation frequencies for coronary heart disease and cerebral ischemic stroke a hemodynamic numerical simulation study [J]. Computer Methods and Programs in Biomedicine, 2023, 239:107640. (SCI, JCR一区, top)

[10]B Li#, T Liu#, J Liu, et al. Reliability of using generic flow conditions to quantify aneurysmal haemodynamics: A comparison against simulations incorporating boundary conditions measured in vivo [J]. Computer Methods and Programs in Biomedicine, 2022, 225: 107034. (SCI, JCR一区, top)

[11] K Xu,B Li*, J Liu, et al. Model-based evaluation of local hemodynamic effects of enhanced external counterpulsation [J]. Computer Methods and Programs in Biomedicine, 2022, 214:106540. (SCI, JCR一区, top)

[12] H Sun, J Liu, Y Feng, X Xi, K Xu, L Zhang, J Liu,B Li*, Y Liu*. Deep learning-based prediction of coronary artery stenosis resistance [J]. American Journal of Physiology-Heart and Circulatory Physiology, 2022, 323(6): H1194-1205. (SCI, JCR一区, top)

[13] X Xi, J Liu, H Sun, K Xu, X Wang, L Zhang, T Du, J Liu,B Li*. Accurate calculation of FFR based on a physics-driven fluid–structure interaction model [J]. Frontiers in Physiology, 2022, 13:861446. (SCI, JCR二区)

[14]B Li, B Mao, Y Feng, et al. The hemodynamic mechanism of FFR-Guided coronary artery bypass grafting [J]. Frontiers in Physiology, 2021, 12:503687. (SCI, JCR一区)

[15]B Li, K Xu, J Liu, et al. A numerical model for simulating the hemodynamic effects of enhanced external counterpulsation on coronary arteries [J]. Frontiers in Physiology, 2021, 12:656224. (SCI, JCR一区)

[16]B Li#, H Wang#, G Li, et al. A patient-specific modelling method of blood circulatory system for the numerical simulation of enhanced external counterpulsation [J]. Journal of Biomechanics, 2020, 111:110002. (SCI, JCR三区)

[17]B Li, W Wang, B Mao, et al. Long-term hemodynamic mechanism of enhanced external counterpulsation in the treatment of coronary heart disease: a geometric multiscale simulation [J]. Medical and Biological Engineering and Computing, 2019, 57(11):2417-2433. (SCI, JCR二区)

[18]B Li, W Wang, B Mao, et al. A method to personalize the lumped parameter model of coronary artery [J]. International Journal of Computational Methods, 2019, 16(3):1842004. (SCI, JCR二区)

[19]B Li, W Wang, B Mao, et al. Hemodynamic effects of enhanced external counterpulsation on cerebral arteries: A multiscale study [J]. BioMedical Engineering OnLine, 2019, 18(1):91. (SCI, JCR三区)

[20]刘有军, 王文馨,李鲍, 杜建军. 生物力学建模仿真与应用, 血流动力学几何多尺度数值模拟. 上海交通大学出版社,2017, 12.(参编)

招生方向/要求

热爱编程，对人工智能有浓厚的兴趣，有较高的科研热情。