【概况】

【教育背景】

2005.9 - 2009.10，Toronto Metropolitan University（原瑞尔森大学），机械工程系，博士 2002.9 - 2005.3, 天津大学，力学系, 硕士 1996.9 - 2000.7, 河北工业大学, 机械电子工程系，学士

【学术经历】

2015/07-至今，天津大学，机械工程学院力学系，副教授 2015/05-2015/07，Ryerson University，机械和工业工程系，讲师 2015/04/2015/05，Sulon Technologies Inc.，高级光学研究员 2013/08-2015/04,神经外科(Division of Neurosurgery)，Sunnybrook Health Sciences Centre(加拿大)，访问研究员 2012/08-2013/07，多伦多大学医学系，博士后 2010/01-2015/04，Ryerson University，电子和计算机工程系，博士后 2000/07-2002/08 天津和平海湾电源集团有限公司，设备研发工程师

【讲授课程】

1.工程力学 (本) 2.实验应力分析（本） 3.生物力学（研） 4.高等实验力学 (研, 全英文) 5.生物力学与成像 (研, 全英文)

【教学成果】

【研究方向】

结合光学影像技术、光声电磁等加载手段和生物力学理论及反问题求解，多学科交叉，研发对生物组织力学特性进行测试的技术和实验装置，以及面向临床的生物力学成像方法和仪器，为人类健康及工业检测提供新方法和技术。主要包括: 1. 生物力学测试和成像技术及仪器: 开发多功能光学相干断层扫描（OCT）技术、OCT与其它成像技术融合的多尺度、多模态测试和影像技术及仪器，为生物组织力学特性测试提供新型实验方法，为心脑血管和癌症等疾病的早期精准诊疗提供重要手段。 2.光测实验力学新方法新技术：面向智能制造或极端环境下对材料力学性能测试的需求，以数字图像相关（DIC）、散斑干涉、结构光等方法为基础，研究新型的光力学测试理论和技术。

【学术兼职】

1. 国际光机电技术研讨会(International symposium on OptoMechtronics Technology, ISOT)执行委员会委员 (Steering committee member) 2. 天津市生物医学工程学会生物力学专业委员会委员 3.长期担任 JBO、OE 和OLEN等期刊的审稿专家。

【科研项目及成果】

主要科研项目： 1.天津市自然科学基金：数字技术在距骨内固定钢板设计的应用研究 2.国家自然科学基金：用于脑动脉瘤壁力学性能评价的光学相干弹性成像技术研究 3.天津市重点研发计划科技支撑重点项目：血管内光学相干断层扫描流速分布和弹性成像关键技术与系统的研发 4.天津市自然科学基金：在体颈动脉粥样硬化斑块光学相干弹性成像技术研究 5.横向课题若干 主要学术成就： 在光学相干断层成像（OCT）的技术和应用研究方面取得了重要进展：开创了光学相干弹性成像（OCE）光测实验力学新方法，为软材料原位、全场、深度敏感、高分辨力学测量提供了新的实验手段。引领血管生物力学成像技术前沿，形成了一套智能血管图像分割 - 在体OCT和造影图像融合 - 个体化病例血管有限元高分辨建模 - 血管力学特性分析的完善研究方法。在Journal of biomedical optics （JBO）、Biomedical Optics Express （BOE）、Journal of Biophotonics 等期刊发表论文50余篇，被引600余次。

【代表性论著】

[1] X. Lin, J. Chen, X. Feng, H. Wang, R. Li, H. Liu, H. Liu, C. Sun#, In situ deformation measurement of 3D printed scaffold and mechano-regulation in tissue engineering, Optics and Lasers in Engineering 169 (2023) 107719. [2] Q. Guo, J. Chen, H. Liu, C. Sun#, Measurement of Layer-Specific Mechanical Properties of Intact Blood Vessels Based on Intravascular Optical Coherence Tomography, Cardiovasc Eng Technol 14(1) (2023) 67-78. [3] D. Zhao, H. Wang, J. Deng, I. Slavashevich, X. Guo, Y. Mei, C. Sun#, Optical coherence elastography of 3D bilayer soft solids using full-field and partial displacement measurements, Medicine in Novel Technology and Devices 15(3) (2022) 10. [4] X. Lin, J. Chen, Y. Hu, X. Feng, H. Wang, H. Liu, C. Sun#, Image Quality Assessment for Digital Volume Correlation-Based Optical Coherence Elastography, Photonics 9(8) (2022) 573. [5] H. Wu, J. Wang, J.A. Amaya Catano, C. Sun, Z. Li, Optical coherence elastography based on inverse compositional Gauss-Newton digital volume correlation with second-order shape function, Optics Express 30(23) (2022) 41954-41968. [6] C. Sun, H. Pan, J. Jia, H. Liu, J. Chen, In Vivo Intravascular Optical Coherence Tomography (IVOCT) Structural and Blood Flow Imaging Based Mechanical Simulation Analysis of a Blood Vessel, Cardiovascular Engineering and Technology 13(5) (2022) 685-698. [7] 黄举，孙翠茹#，林祥龙, 基于卷积神经网络的散斑图像位移场测量方法 光学学报 41(20) (2021) 2012002. [8] M. Zhang, H. Liu, Z. Cai, C. Sun, W. Sun, An improved analytical method to estimate three-dimensional residual stresses of the aorta, Applied Mathematical Modelling 90 (2021) 351-365. [9] J. Chen, Y. Hu, X. Lin, H. Liu, C. Sun#, Optical coherence elastography of bilayer soft tissue based on harmonic surface wave spectroscopy, Optics and Lasers in Engineering Volume 145 (2021) 106667. [10] C.Sun#, X.Zhang, Real-time subtraction-based calibration methods for deformation measurement using structured light techniques, Appl Optics 58(28) (2019) 7727-7732. [11] F. Meng, X. Zhang, J. Wang, C. Li, J. Chen, C. Sun#, 3D Strain and Elasticity Measurement of Layered Biomaterials by Optical Coherence Elastography based on Digital Volume Correlation and Virtual Fields Method, Applied Sciences 9(7) (2019) 1349. [12] F. Meng, C. Chen, S. Hui, J. Wang, Y. Feng, C. Sun#, Three-dimensional static optical coherence elastography based on inverse compositional Gauss-Newton digital volume correlation, Journal of Biophotonics 12(9) (2019) e201800422. [13] J.Jia, C. Sun#, Vascular Stress Analysis During in Vivo Intravascular Optical Coherence Tomography Imaging, Molecular & Cellular Biomechanics 16(Supplemental 1) (2019) 61-64. [14] J.Zheng, C.Sun#, Optical Coherence Elastography for Viscoelastic Properties Measurement, Sixth International Conference on Optical and Photonic Engineering (Icopen 2018) 10827 (2018). [15] J.Chen, J.Liu, C.Sun#, Residual stress measurement via digital image correlation and sharp indentation testing, Optical Engineering 55(12) (2016). [16] C. Sun, V. Yang, Vascular wall stress during intravascular optical coherence tomography imaging, Proc. SPIE (2015) 93270. [17] C. Sun, O.H. Khan, P. Siegler, J. Jivraj, R. Wong, V. Yang, Cadaveric In-Situ Testing of Optical Coherence Tomography System Based Skull Base Surgery Guidance, in: H. Hirschberg, S.J. Madsen, E.D. Jansen, Q. Luo, S.K. Mohanty, N.V. Thakor (Eds.), Optical Techniques in Neurosurgery, Neurophotonics, and Optogenetics Ii2015. [18] C. Sun, B. Vuong, X.-Y. Wen, V. Yang, Preliminary study of digital image correlation based optical coherence elastography, in: B.E. Bouma, R.A. Leitgeb (Eds.), Optical Coherence Tomography and Coherence Techniques Vi2013. [19] C. Sun, B. Standish, B. Vuong, X.-Y. Wen, V. Yang, Digital image correlation-based optical coherence elastography, Journal of Biomedical Optics 18(12) (2013). [20] C. Sun, F. Nolte, V. Barry, K.H.Y. Cheng, K.K.C. Lee, B.A. Standish, B. Courtney, T.R. Marotta, V.X.D. Yang, Blood flow velocity measurement by endovascular Doppler optical coherence tomography, in: N. Kollias, B. Choi, H. Zeng, H.W. Kang, B.E. Knudsen, B.J.F. Wong, J.F. Ilgner, M.J. Suter, S. Lam, M. Brenner, K.W. Gregory, G.J. Tearney, L. Marcu, H. Hirschberg, S.J. Madsen, A. MahadevanJansen, E.D. Jansen, A. Mandelis (Eds.), Photonic Therapeutics and Diagnostics Ix2013. [21] C. Sun, F. Nolte, K.H.Y. Cheng, B. Vuong, K.K.C. Lee, B.A. Standish, B. Courtney, T.R. Marotta, A. Mariampillai, V.X.D. Yang, In vivo feasibility of endovascular Doppler optical coherence tomography, Biomedical Optics Express 3(10) (2012) 2600-2610. [22] C. Sun, K.K.C. Lee, B. Vuong, M.D. Cusimano, A. Brukson, A. Mauro, N. Munce, B.K. Courtney, B.A. Standish, V.X.D. Yang, Intraoperative handheld optical coherence tomography forward-viewing probe: physical performance and preliminary animal imaging, Biomedical Optics Express 3(6) (2012) 1404-1412. [23] C. Sun, B. Standish, V.X.D. Yang, Optical coherence elastography: current status and future applications, Journal of Biomedical Optics 16(4) (2011).