刘海婴的个人简介
研究方向脑认知功能,功能核磁共振。博士生导师。
参与项目
⑴ “Near infrared spectroscopy for human brain functional measurement”美国明尼苏达大学研究基金,Gant#17819,$16,257,09/01/98-07/31/99,负责人(Principal Investigator)
⑵ “Effects of therapy with Donepezil on functional magnetic resonance imaging inpatients with mild Alzheimer’s disease”Pfizer Inc. 研究基金,Grant#637-6275,$105,303,11/04/98-11/03/99,第二负责人(Co-Investigator)
⑶ “Development of MR-guided neurosurgical procedures at high magnetic field”Philips medical system.研究基金,$165,000,07/01/96-06/30/99,第二负责人(Co-Investigator)“Functional MR imaging mapping of human thalamocortical network”美国国家健康研究所(NIH)课题(RO1 NS39043),$1,500,000,07/01/99-06/30/04,第二负责人(Co-Investigator)
⑷ “CSF flow dynamics in normal human subjects” Medtronic Inc. 研究基金,$40,000/year,5/1/01-4/30/02,负责人(Principle-Investigator)
⑸ “Development of MR-guided minimally invasive neurosurgical procedures at high magnetic field”. Philips medical system.研究基金,$500,000,09/01/01-08/31/03, 第二负责人(Co-Investigator)
⑹ “Spectroscopy of brain tumors at 4 or 7 Tesla”美国国家健康研究所(NIH)课题(R21/33 NS39043),$136,150/year, 03/01/02-02/28/06,第二负责人(Co-Investigator)
⑺ “MR-Guided DBS Placement for Suppressing Tremor”美国国家健康研究所(NIH)课题(R01 NS40484),$187,900/ year,05/01/00-04/29/04,负责人(Principle-Investigator)
⑻ “Prospectively MR-Guided Brain Biopsy”美国国家健康研究所(NIH)课题(R01 NSxxxx),$125,000/year,09/01/02-08/31/05,负责人(Principle-Investigator)
专利
⑴ 体内仪器定位的方法和装置。US Pat#6195577(2001),Truwit CL 与刘海婴.(第二发明人)
⑵ 非等距k空间数据的替代重建方法。US Pat#6043652(2000),刘海婴. (独立发明人)
⑶ 近全封闭式头部核磁共振积分射频线圈。US Pat#6029082(2000),Srinivasan R、刘海婴与Elerk R. (第二发明人)
⑷ MR兼容医疗设备。US Pat#5964705(1999),Truwit CL与刘海婴. (第二发明人)
⑸ 单电路梯形谐振器积分表面射频线圈。US Pat#5898306(1999),刘海婴与Truwit CL. (第一发明人)
⑹ 简化的人造运动体的旋转散射MR成像。US Pat#5833609(1998),Dannels WR,Xu Y与刘海婴. (第三发明人)
⑺ 磁共振螺旋回波扫描校准与重建方法。US Pat#5825185(1998),刘海婴、Bearden FH与DeMeester GD. (第一发明人)
⑻ 多发射点多回波成像的磁共振扫描校准与重建技术。US Pat#5742163(1998),刘海婴、DeMeester GD 与McNally JM. (第一发明人)
⑼ 同步磁共振成像和波谱研究的多谐射频线圈。US Pat#5680047(1997),Srinivasan R、刘海婴与Elerk R. (第二发明人)
⑽ 梯度剖面合成和流量敏感度连续可调相位敏感磁共振技术。US Pat#5652513(1997),刘海婴、Margosian P 与Xu Y. (第一发明人)
⑾ MR扫描超快图象获取的校准方法。US Pat#5621321(1997),刘海婴、Gullapalli R、Loncar M 与DeMeester G. (第一发明人)
⑿ 磁共振成像的积分射频线圈。US Pat#5602479(1997),Srinivasan R、刘海婴与Elerk R. (第一发明人)
⒀ 混合带宽数据获取超快MRI数据的方案。US Pat#5602476(1997),刘海婴、Gullapalli R与Loncar M. (第一发明人)
⒁ 利用螺旋回波和梯度回波进行水油分离的三点技术。US Pat#5594336(1997),Gullapalli R、刘海婴与Loncar M. (第二发明人)
⒂ MR成像多重积分体积线圈。US Pat#5543711(1996),Srinivasan R、Elerk R与刘海婴. (第三发明人)
⒃ 三维螺旋回波体积成像。US Pat#5532595(1996),Lampman DA与刘海婴. (第二发明人)
⒄ FLAIR中增加处理量隔行扫描翻转技术。US Pat#5528144(1996),Gullapalli RP、Hajnal JV、刘海婴与Kasuboski L. (第三发明人)MR积分接收线圈的数字合并与校正。US Pat#5510711(1996),Molynodux DA与刘海婴. (第二发明人)
主要论著
⑴ Hall WA,Liu H,Martin AJ,Maxwell RE,Truwit CL. Brain biopsy sampling by using prospective stererotaxis and a trajectory guide. J Neurosurg 2001,94: 67-71. (SCI检索刊,影响因子10)
⑵ Kato T,Knopman DS,Liu H. Dissociation of regional activation in mild AD during visual encoding: A functional MRI study. Neurology 2001,57: 812-816. (SCI检索刊,影响因子6.4)
⑶ Liu H,Hall WA,Martin AJ,Truwit CL. Biopsy needle tip artifact in MR-guided neurosurgery.J Magn Reson Imag 2001,13: 16-22. (SCI检索刊,影响因子2.15)
⑷ Liu H,Hall WA,Martin AJ,Truwit CL. An efficient chemical shift imaging scheme for MR guided neurosurgery. J Magn Reson Imag 2001,14: 1-7. (SCI检索刊,影响因子2.15)
⑸ Liu H,An efficient MR image disortion correction method for a biplanar planar gradient coil. Magn Reson Materials in Physics,Biology & Med 2000,10⑵: 75-79.
⑹ Hall WA,Liu H,Truwit CL. Navigus trajectory guide. Neurosurgery 2000,46⑵: 502-504. (SCI检索刊,影响因子10)
⑺ Hall WA,Liu H,Truwit CL. Safety,efficacy,and functionality of High-field strength interventional MRI for neurosurgery. Neurosurgery 2000,46⑶: 632-634. (SCI检索刊,影响因子10)
⑻ Liu H,Zhang J. An efficient MR phosphorous spectroscopic localization technique for studying ischemic heart . J Magn Reson Imag 1999,10: 892-898. (SCI检索刊,影响因子2.15)
⑼ Hall WA,Martin AJ,Liu H,Pozza CH,Casey SO,Michel E,Nussbaum ES,Maxwell RE,Truwit CL. Brain biopsy using high-field strength interventional magnetic resonance imaging,Neurosurg 1999,44: 807-814. (SCI检索刊,影响因子10)
⑽ Liu H,Truwit CL. True energy-minimal and finite-size biplanar gradient coil design for MRI. IEEE Trans Med imaging 1998,17: 826-830. (SCI检索刊,影响因子2.984)
⑾ Maurer CR,Hill DL,Martin AJ,Liu H,Mccue M,Rueckert D,Hall WA,Maxwell RE,Hawkes DJ,Truwit CK. Investigation of intraoperative brain deformation using a 1.5-T Interventional MR system: Preliminary results. IEEE Trans med. Imaging 1998,17: 817-825. (SCI检索刊,影响因子2.984)
⑿ Liu H. A flexible two-dimensional phase correction for interleaved echo-planar imaging reconstruction. J Appl Phys 1998,83⑾: 6846-6848. (SCI检索刊,影响因子2.180)
⒀ Liu H. Metallic needle artifacts in magnetic resonance imaging. J Appl Phys 1998,83⑾: 6849-6851. (SCI检索刊,影响因子2.180)
⒁ Liu H,Martin AJ,Truwit CL. Interventional MRI at high field: Needle artifacts. J Magn Reson Imag 1998,8⑴: 214-219. (SCI检索刊,影响因子2.15)
⒂ Liu H,Petropoulos LS. Spherical gradient coil for ultra fast imaging. J Appl Phys 1997,81⑻: 3853-3855. (SCI检索刊,影响因子2.180)
担任
★ “Journal of Magnetic Resonance Imaging” (SCI检索刊,影响因子2.15)
★ “International Society for Optical Engineering (SPIE)”
★ “IEEE Trans. Med. Imaging” (SCI检索刊,影响因子2.984)
★ “IEEE Trans Magnetics”
★ “Magnetic Resonance in Medicine ” (SCI检索刊,影响因子6.4)
★ “Journal of Applied Physics” (SCI检索刊,影响因子2.180)
★ “Medical Physics” (SCI检索刊,影响因子6.4)
★ “American Journal of Neuroradiology”等八家重要国际学术刊物的评审人
