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    • 3. 发明申请
    • Phantom for production of controllable fMRI signal
    • Phantom用于生产可控的fMRI信号
    • US20050110490A1
    • 2005-05-26
    • US10957822
    • 2004-10-04
    • Qun ZhaoG. DuensingHu ChengWilliam Edelstein
    • Qun ZhaoG. DuensingHu ChengWilliam Edelstein
    • G01R33/32G01R33/58G01V3/00A61B5/05
    • G01R33/32G01R33/4806G01R33/58
    • The subject invention relates to a method and apparatus for producing stimulated MRI data. In an embodiment, a remote-controlled “smart phantom” can produce simulated data. The simulated data can be acquired from a MRI system. The subject device can generate control signals and send the generated control signals to secondary coils/probes placed in the subject smart phantom. The control signals determine the current flow in the secondary coils/probes, which act as local spin magnetization amplifiers and thus produce regions of variable contrast to noise ratio. The control signals can be generated with various parameters, such as BOLD models, different levels of contrast-to-noise ratio (CNR), signal intensities, and physiological signals. Comparisons can be made with the widely-used simulated data by computers. Validation of the subject smart phantom can be performed with both theoretical analysis and data of human subjects.
    • 本发明涉及一种用于产生模拟MRI数据的方法和装置。 在一个实施例中,远程控制的“智能幻影”可以产生模拟数据。 可以从MRI系统获取模拟数据。 主体装置可以产生控制信号,并将产生的控制信号发送到放置在主体智能幻影中的次级线圈/探头。 控制信号确定次级线圈/探头中的电流,其作为局部自旋磁化放大器,从而产生可变对比度噪声比的区域。 控制信号可以用诸如BOLD模型,不同等级的对比噪声比(CNR),信号强度和生理信号等各种参数产生。 可以用计算机广泛使用的模拟数据进行比较。 可以通过理论分析和人类受试者的数据进行主体智能幻影的验证。
    • 4. 发明申请
    • Active-passive electromagnetic shielding to reduce MRI acoustic noise
    • 主动被动电磁屏蔽减少MRI声学噪声
    • US20050046422A1
    • 2005-03-03
    • US10925691
    • 2004-08-25
    • William EdelsteinTesfaye KidaneVictor TaracillaTanvir BaigTimothy EaganRobert Brown
    • William EdelsteinTesfaye KidaneVictor TaracillaTanvir BaigTimothy EaganRobert Brown
    • G01R33/385G01R33/421G01V3/00
    • G01R33/3854G01R33/4215
    • The present invention provides an apparatus for reducing acoustic noise in a magnetic resonance imaging device including passive shielding located outside the actively shielded gradient winding elements in order to reduce the magnitude of fields that spread outside the gradient coil assembly in unwanted directions and interact with the magnet cryostat or other metallic magnet parts, inducing eddy currents that cause consequent acoustic noise. The passive shielding elements are conducting layers located on the outer radius of the cylindrical gradient coil assembly in a cylindrical magnet system, conducting layers located at the ends of the gradient coil assembly in a cylindrical magnet system, and conducting layers located inside the actively shielded gradient winding inner elements in a cylindrical magnet system. The passive shielding could also be located on separate structures that are vibrationally isolated from the magnet cryostat. The actively shielded gradient winding can also be extended to portions at the ends of the actively shielded gradient winding and further to portions inside the inner radius of the inner portion of the actively shielded gradient winding. The actively shielded gradient windings and passive shielding should be designed concurrently in order to substantially optimize the gradient linearity and reduce the eddy currents generated in metallic parts of the magnetic resonance imaging system.
    • 本发明提供了一种用于降低磁共振成像装置中的声学噪声的装置,其包括位于主动屏蔽梯度绕组元件外部的无源屏蔽,以便减小在不需要的方向上扩展到梯度线圈组件外部的场的幅度并与磁体相互作用 低温恒温器或其他金属磁体部件,引起导致声音噪声的涡流。 无源屏蔽元件是位于圆柱形磁体系统中的圆柱形梯度线圈组件的外半径上的导电层,位于梯形线圈组件的端部的导电层位于圆柱形磁体系统中,导电层位于主动屏蔽梯度内 在圆柱形磁体系中缠绕内部元件。 被动屏蔽也可以位于与磁体低温恒温器振动隔离的分离结构上。 主动屏蔽的梯度绕组还可以延伸到主动屏蔽的梯度绕组的端部的部分,并且还可以延伸到主动屏蔽的梯度绕组的内部的内半径内的部分。 主动屏蔽梯度绕组和无源屏蔽应同时设计,以便基本上优化梯度线性并减少在磁共振成像系统的金属部分中产生的涡流。
    • 5. 发明申请
    • Method and apparatus for producing simulated fMRI data
    • 用于产生模拟fMRI数据的方法和装置
    • US20070088211A1
    • 2007-04-19
    • US11452605
    • 2006-06-13
    • Hu ChengQun ZhaoWilliam EdelsteinG. Duensing
    • Hu ChengQun ZhaoWilliam EdelsteinG. Duensing
    • A61B5/05
    • A61B5/055
    • The subject invention relates to a method and apparatus for producing stimulated MRI data. In an embodiment, a remote-controlled “smart phantom” can produce simulated data. The simulated data can be acquired from a MRI system. The subject device can generate control signals and send the generated control signals to secondary coils/probes placed in the subject smart phantom. The control signals determine the current flow in the secondary coils/probes, which act as local spin magnetization amplifiers and thus produce regions of variable contrast to noise ratio. The control signals can be generated with various parameters, such as BOLD models, different levels of contrast-to-noise ratio (CNR), signal intensities, and physiological signals. Comparisons can be made with the widely-used simulated data by computers. Validation of the subject smart phantom can be performed with both theoretical analysis and data of human subjects.
    • 本发明涉及用于产生刺激的MRI数据的方法和装置。 在一个实施例中,远程控制的“智能幻影”可以产生模拟数据。 可以从MRI系统获取模拟数据。 主体装置可以产生控制信号,并将产生的控制信号发送到放置在主体智能幻影中的次级线圈/探头。 控制信号确定次级线圈/探头中的电流,其作为局部自旋磁化放大器,从而产生可变对比度噪声比的区域。 控制信号可以用诸如BOLD模型,不同等级的对比噪声比(CNR),信号强度和生理信号等各种参数产生。 可以用计算机广泛使用的模拟数据进行比较。 可以通过理论分析和人类受试者的数据进行主体智能幻影的验证。