科院考研推荐链接:
个人简介
生物医学超声技术以其无创、无辐射、易于使用和经济性好等优点,已成为临床应用最广泛的诊疗技术之一。
项目组定位于新型医学超声关键技术,组建了深圳市超声成像与治疗技术重点实验室,研究内容涵盖超声换能器、超声成像算法和超声仪器装备;面向新型的临床疾病诊疗需求,开展高分辨率超声成像和低强度超声治疗等技术研究,并推动相关技术的产业转化,带动我国医学超声技术发展。
项目组已发表JCR二区以上SCI文章39篇其中IEEE Trans文章21篇;共申请32项发明专利(已授权16项);项目组研发的多项生物医学超声新技术完成了产业转化。
教育经历
2004年7月获得合肥工业大学测控技术及仪器专业学士学位;
2007年3月获得天津大学测试计量技术及仪器专业硕士学位;
2012年1-5月美国南加州大学超声传感器研究中心访问学者,学习高分辨超声系统及换能器技术;
2012年10月获得香港理工大学生物医学工程博士学位;
工作经历
2007-2009工作于中兴通讯股份有限公司,先后任职硬件/FPGA工程师、项目经理;
2012年8月加入中国科学院深圳先进技术研究院-医工所-影像中心,任副研究员;
2018年2月晋升为研究员,博士生导师;
2019年1月深圳市超声成像与治疗技术重点实验室,主任。
学术兼职
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control,副主编(Associate Editor);
IEEE International Ultrasonics Symposium (IUS) 国际超声年会, Technical Program Committee (TPC) Member;
IEEE Senior member;
IEEE-UFFC Society Special Topic School, Waves and Transducers, Organizer and teaching faculty;
中国医学装备协会/超声装备技术分会/超声换能器专委会,副主任委员;
中国医学装备协会/超声装备技术分会,常务委员;
中国康复医学会/脑功能检测与调控康复专业委员会,常务委员;
中国超声医学工程学会/仪器工程开发专委会,委员;
中国医师协会/超声分子影像与人工智能专委会,委员;
中国仪器仪表学会/显微仪器分会,理事;
中国科学院青促会成员;
广东省生物医学工程学会青年学术分会,副主任委员;
广东省生物医学工程学会,委员。
人才获奖
2014年中国科学院王宽诚教育基金获得者;
2015年参与获得中国科学院科技促进发展奖;
2015年参与获得广东省科技进步一等奖;
2015年入选深圳市海外高层次人才“孔雀计划”B类引进人才;
2015年广东省杰青基金获得者;
2016年“深圳市青年科技奖”获得者;
2017年广东省特支计划青年拔尖人才获得者。
研究内容
主要研究方向为新型医学超声方法及系统:
1)高分辨率血管内超声成像方法及系统
为心血管疾病提供超声成像工具。团队已经开发并产业转化的血管内超声成像关键技术:图(a)血管内超声成像原理;(b)高频超声成像系统平台主机;(c)血管内超声换能器,直径小于1毫米,中心频率大于40MHz;(d)成像调试时的电路及软件;(e)离体血管超声及光声成像图。
相关文章:
[1] [M. Su, Z. Zhang], J. Hong, Y. Huang, P. Mu, Y. Yu, R. Liu, S. Liang, H. Zheng*, and W. Qiu*, “Cable shared dual-frequency catheter for intravascular ultrasound”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 66, no. 5, pp. 849-856, May. 2019. (IF: 2.989).
[2] [J. Hong, M. Su, Y. Yu], Z. Zhang, R. Liu, Y. Huang, P. Mu, H. Zheng*, and W. Qiu*, “A dual-mode imaging catheter for intravascular ultrasound application”, IEEE Transactions on Medical Imaging. vol. 38, no. 3, pp. 657-663, Mar. 2019. (IF: 7.816)
[3] Z. Zhang, F. Li, R. Chen, T. Zhang, X. Cao, S. Zhang, T. Shrout, H. Zheng, K. K. Shung, M. S. Humayun, W. Qiu*, and Q. Zhou*, “High performance ultrasound needle transducer based on modified PMN-PT ceramic with ultrahigh clamped dielectric permittivity”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 65, no. 2, pp. 223-230, Feb. 2018. (IF: 2.743)
[4] W. Qiu*, X. Wang, Y. Chen, Q. Fu, M. Su, L. Zhang, J. Xia, J. Dai, Y. Zhang, and H. Zheng*, “Modulated excitation imaging system for intravascular ultrasound”, IEEE Transactions on Biomedical Engineering, vol. 64, no. 8, pp. 1935-1942, Aug 2017. (IF: 3.577)
[5] W. Qiu, Y. Chen, X. Li, Y. Yu, W. F. Cheng, F. K. Tsang, Q. Zhou, K. K. Shung, J. Dai, and L. Sun*, “An open system for intravascular ultrasound imaging,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control, vol. 59, no. 10, pp. 2201-2209, 2012. (IF: 1.822)
[6] W. Qiu, Y. Yu, F. K. Tsang, and L. Sun*, “A multi-functional, reconfigurable pulse generator for high frequency ultrasound imaging,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control, vol. 59, no. 7, pp. 1432-1442, July, 2012. (IF: 1.822)
2)高分辨内窥超声成像方法及装置
为肠道疾病提供高分辨率成像方法。团队开发的新型内窥超声成像技术:图(a) 超声内镜示意图;(b)成像扫描方案;(c) 原理样机,基于LiNbO3单晶材料开发的35MHz超声成像器件;(d)离体小肠成像图,纵向分辨率小于60微米。
相关文章:
[1] W. Qiu*, J. Xia, Y. Shi, P. Mu, X. Wang, M. Gao, C. Wang, Y. Xiao, G. Yang, J. Liu, L. Sun, and H. Zheng*, “A delayed-excitation data acquisition method for high-frequency ultrasound imaging”, IEEE Transactions on Biomedical Engineering. vol. 65, no. 1, pp. 15-20, Jan. 2018. (IF: 4.491).
[2] X. Wang, V. Seetohul, R. Chen, M. Qian, Z. Shi, G. Yang, P. Mu, C. Wang, Z. Huang, Q. Zhou, H. Zheng, S. Cochran, and W. Qiu*, “Development of a mechanical scanning device with high-frequency ultrasound transducer for ultrasonic capsule endoscopy”, IEEE Transactions on Medical Imaging, vol. 36, no. 9, pp. 1922-1929, Sep. 2017. (IF: 3.942)
[3] W. Qiu, Y. Yu, F. K. Tsang, and L. Sun*, “An FPGA based open platform for ultrasound biomicroscopy,” IEEE Trans. Ultrason. Ferroelectr. Freq. Control, vol. 59, no. 7, pp. 1558-1567, July, 2012. (IF: 1.822)
3)超声脑成像技术与系统
为脑科学研究提供新的超声成像方法和工具。(a) 阵列超声控制电子系统开发; (b) 高性能超声换能器;(c)新型超声系统整机; (d) 胶质瘤模型B模式超声成像图;(e) 新型平面波复合超声脑血流成像图。
相关文章:
[1] J. Xia, Y. Yang, C. Hu, R. Meng, Q. Jiang, R. Liu, Y. Yu, Z. Sheng, F. Yan, L. Zhang, Z. Shi, H. Zheng, and W. Qiu*, “Evaluation brain tumor in small animals using plane-wave-based power Doppler imaging”, Ultrasound in Medicine and Biology. vol. 45, no. 3, pp. 811-822, Mar. 2019. (IF: 2.645)
[2] [Z. Zhang, R. Chen], B. Wang, T. Zhang, M. Su, R. Liu, J. Yang, X. Cao, Y. Li, H. Zheng, K. K. Shung, M. S. Humayun, Q. Zhou*, and W. Qiu*, “Development of a high-frequency KNN ceramic based lead-free linear array ultrasonic transducer”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 65, no. 11, pp. 2113-2120, Nov. 2018. (IF: 2.704)
[3] W. Qiu*, J. Xia, Y. Shi, P. Mu, X. Wang, M. Gao, C. Wang, Y. Xiao, G. Yang, J. Liu, L. Sun, and H. Zheng*, “A delayed-excitation data acquisition method for high-frequency ultrasound imaging”, IEEE Transactions on Biomedical Engineering. vol. 65, no. 1, pp. 15-20, Jan. 2018. (IF: 3.577)
[4] [W. Qiu, Y. Yu], F. K. Tsang, H. Zheng*, and L. Sun*, "A novel modulated excitation imaging system for micro-ultrasound," IEEE Transactions on Biomedical Engineering, vol. 60, no. 7, pp. 1884-1890, 2013. (IF: 2.233
[5] W. Qiu, Y. Yu, H. R. Chabok, C. Liu, F. K. Tsang, Q. Zhou, K. K. Shung, H. Zheng, and L. Sun*, “A flexible annular array imaging platform for micro-ultrasound,” IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, vol. 60, no. 1, pp. 178-86, 2013. (IF: 1.503)
4)无创超声神经调控技术及系统
为脑科学研究提供无创神经调控工具。(a)团队研发的超声神经刺激便携式专用系统; (b)新型阵列式超声调控系统;(c)大规模通道(2048通道)阵列超声调控系统;(d)香港城市大学视网膜刺激应用;(e)上海交通大学神经调控实验;(f)中科院心理所猴子刺激实验;(g)国际著名杂志《Nature》正刊报道了团队开展的神经调控仪器开发工作;(h)系统技术已经应用到的科研单位。
相关文章:
[1] [G. Li, W. Qiu, Z. Zhang], Q. Jiang, M. Su, R. Cai, Y. Li, F. Cai, Z. Deng, D. Xu, H. Zhang, and H. Zheng*, “Noninvasive ultrasonic neuromodulation in freely moving mice”, IEEE Transactions on Biomedical Engineering. vol. 66, no. 1, pp. 217-224, Jan. 2019. (IF: 4.288)
[2] [G. Li, W. Qiu], J. Hong, Q. Jiang, M. Su, P. Mu, G. Yang, Y. Li, C. Wang, H. Zhang, H. Zheng*, “Imaging-Guided Dual-Target Neuromodulation of the Mouse Brain Using Array Ultrasound”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 65, no. 9, pp. 1583-1589, Sep. 2018. (IF: 2.743)
[3] [Q. Jiang, G. Li], H. Zhao, W. Sheng, L. Yue, M. Su, S. Weng, L. Chan, Q. Zhou, M. S. Humayun, W. Qiu*, and H. Zheng*, “Temporal neuromodulation of retinal ganglion cells by low-frequency focused ultrasound stimulation”, IEEE Transactions on Neural Systems and Rehabilitation Engineering. vol. 26, no. 5, pp. 969-976, May. 2018. (IF: 3.41)
[4] W. Qiu, J. Zhou, Y. Chen, M. Su, G. Li, H. Zhao, S. Cao, D. Meng, C. Wang, Y. Xiao, K. H. Lam, J. Dai, and H. Zheng*, “A portable ultrasound system for non-invasive ultrasonic neuro-stimulation”, IEEE Transactions on Neural Systems and Rehabilitation Engineering. vol. 25, no. 12, pp. 2509-2515, Dec. 2017. (IF: 3.41)
[5] [M. Gao, Y. Yu], H. Zhao, G. Li, H. Jiang, C. Wang, F. Cai, L. Chan, B. Chiu, W. Qian, W. Qiu*, and H. Zheng*, “A simulation study of ultrasonic retinal prosthesis with a novel contact-lens array for non-invasive retinal stimulation”, IEEE Transactions on Neural Systems and Rehabilitation Engineering. vol. 25, no. 9, pp. 1605-11, Sep. 2017. (IF: 3.41)
代表性科研项目
1) 国家自然科学基金青年基金:基于50-100MHz 高频率超声的血管内高分辨率成像方法研究,课题负责人
2) 国家自然科学基金面上基金:基于双模血管内超声的易损斑块弹性及周边血流成像研究,课题负责人
3) 国家自然科学基金重大仪器研制基金项目:基于超声辐射力的深部脑刺激与神经调控仪器研制,核心成员
4) 中科院前沿重点拔尖青年项目:基于高频率超声(20-50MHz)的在体小动物脑血流成像方法与系统研究,课题负责人
5) 广东省自然科学基金杰出青年基金:基于平面波技术的高频超声成像方法及其在脑科学领域的应用研究,课题负责人
6) 广东省自然科学基金自由申请:基于血管内高分辨率超声成像的动脉斑块识别评估方法研究,课题负责人
7) 深圳市国际合作项目:基于高分辨率超声的内窥胶囊成像技术研究,课题负责人
8) 企业委托横向项目, 生物力学超声测量装置,课题负责人
教授课程
1) 生物医学超声成像; 2) 生物医学超声换能器。
期刊文章
[1] Q. Zhang, X. Pang, Z. Zhang, M. Su, J. Hong, H. Zheng, W. Qiu, and K. H. Lam, "Miniature Transducer Using PNN-PZT-based Ceramic for Intravascular Ultrasound", IEEE Trans. Ultrason. Ferroelectr. Freq. Control, vol. 66, no. 6, pp. 1102-1109, Jun. 2019. (IF: 2.989).
[2] [M. Su, Z. Zhang], J. Hong, Y. Huang, P. Mu, Y. Yu, R. Liu, S. Liang, H. Zheng*, and W. Qiu*, “Cable shared dual-frequency catheter for intravascular ultrasound”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 66, no. 5, pp. 849-856, May. 2019. (IF: 2.989).
[3] Y. Yu, Z. Zhang, F. Cai, M. Su, Q. Jiang, Q. Zhou, M. S. Humayun, W. Qiu*, and H. Zheng*, A Novel Racing Array Transducer for Noninvasive Ultrasonic Retinal Stimulation: A Simulation Study, Sensors, vol. 19, no. 8, 1825, 2019. (IF: 3.031).
[4] Z. Zhang, W. Qiu, H. Gong, G. Li, Q. Jiang, P. Liang, H. Zheng*, and P. Zhang*, “Low-intensity ultrasound suppresses low-Mg2+-induced epileptiform discharges in juvenile mouse hippocampal slices”, Journal of Neural Engineering, vol. 16, 036006, 2019. (IF: 4.551)
[5] C. Liu, M. Xing, B. Cong, C. Qiu, D. He, C. Wang, Y. Xiao, T. Yin, M. Shao, W. Qiu, T. Ma, X. Gong, X. Chen, H. Zheng, R. Zheng, and L. Song, "In vivo transrectal imaging of canine prostate with a sensitive and compact handheld transrectal array photoacoustic probe for early diagnosis of prostate cancer", Biomed. Opt. Express, vol. 10, no. 4, pp. 1707-1717, 2019. (IF: 3.91)
[6] [J. Hong, M. Su, Y. Yu], Z. Zhang, R. Liu, Y. Huang, P. Mu, H. Zheng*, and W. Qiu*, “A dual-mode imaging catheter for intravascular ultrasound application”, IEEE Transactions on Medical Imaging. vol. 38, no. 3, pp. 657-663, Mar. 2019. (IF: 7.816)
[7] J. Xia, Y. Yang, C. Hu, R. Meng, Q. Jiang, R. Liu, Y. Yu, Z. Sheng, F. Yan, L. Zhang, Z. Shi, H. Zheng, and W. Qiu*, “Evaluation brain tumor in small animals using plane-wave-based power Doppler imaging”, Ultrasound in Medicine and Biology. vol. 45, no. 3, pp. 811-822, Mar. 2019. (IF: 2.205).
[8] [G. Li, W. Qiu, Z. Zhang], Q. Jiang, M. Su, R. Cai, Y. Li, F. Cai, Z. Deng, D. Xu, H. Zhang, and H. Zheng*, “Noninvasive ultrasonic neuromodulation in freely moving mice”, IEEE Transactions on Biomedical Engineering. vol. 66, no. 1, pp. 217-224, Jan. 2019. (IF: 4.491)
[9] [Z. Zhang, R. Chen], B. Wang, T. Zhang, M. Su, R. Liu, J. Yang, X. Cao, Y. Li, H. Zheng, K. K. Shung, M. S. Humayun, Q. Zhou*, and W. Qiu*, “Development of a KNN Ceramic-Based Lead-Free Linear Array Ultrasonic Transducer”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 65, no. 11, pp. 2113-2120, Nov. 2018. (IF: 2.989).
[10] F. Guo, Y. Wang, Z. Huang, W. Qiu, Z. Zhang, Z. Wang, J. Dong, B. Yang, and W. Cao “Magnesium Alloy Matching Layer for PMN-PT Single Crystal Transducer Applications”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 65, no. 10, pp. 1865-1872, Oct. 2018. (IF: 2.989)
[11] H. Liu*, C. Tsai, C. Jan, H. Chang, S. Huang, M. Li, W. Qiu, and H. Zheng, “Design and implementation of a transmit/receive ultrasound phased array for brain applications”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control. vol. 65, no. 10, pp. 1756-1767, Oct. 2018. (IF: 2.989)
[12] H. Zhang, T. Wang, W. Qiu, Y. Han, Q. Sun, J. Zeng, F. Yan, H. Zheng, Z. Li*, and M. Gao, “Monitoring the Opening and Recovery of the Blood–Brain Barrier with Noninvasive Molecular Imaging by Biodegradable Ultra-small Cu2–xSe Nanoparticles”, Nano Letters. vol. 18, no. 8, pp. 4985-4992, Jul. 2018. (IF: 12.279)
