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    • 3. 发明申请
    • Systems, methods and apparatus of a magnetic resonance imaging magnet to produce an asymmetrical stray field
    • 用于产生不对称杂散场的磁共振成像磁体的系统,方法和装置
    • US20060038565A1
    • 2006-02-23
    • US10922499
    • 2004-08-19
    • Timothy Havens
    • Timothy Havens
    • G01V3/00
    • G01R33/381G01R33/3806G01R33/421
    • Systems, methods and apparatus are provided through which in some embodiments a magnetic resonance imaging (MRI) system includes an asymmetrical magnet to generate an asymmetrical stray field that is particularly well suited to imaging limbs. In some other embodiments, a MRI system includes a conically-shaped casing that allows a patient to more readily access a field-of-view (FOV) in the interior of the MRI system during imaging of limbs. In some embodiments, a MRI system includes a stepped inner bore that has a stepped shape that focuses the FOV in an inner bore of the MRI system on a smaller area that is closer to where a patient accesses the FOV in the MRI that is particularly well suited to imaging a limb in the FOV.
    • 提供了系统,方法和装置,在一些实施例中,磁共振成像(MRI)系统包括不对称磁体以产生非常适合于成像肢体的非对称杂散场。 在一些其它实施例中,MRI系统包括锥形壳体,其允许患者在肢体成像期间更容易地进入MRI系统内部的视场(FOV)。 在一些实施例中,MRI系统包括阶梯式内孔,其具有将FOV聚焦在MRI系统的内孔中的较小区域上的阶梯形状,该较小区域更接近病人在MRI中进入FOV的位置,其特别好 适合在FOV中成像肢体。
    • 9. 发明申请
    • GRADIENT COIL AND METHOD FOR CONSTRUCTION
    • 梯度线圈和结构方法
    • US20050156596A1
    • 2005-07-21
    • US10707827
    • 2004-01-15
    • Timothy HavensMichael SellersDelton Grey
    • Timothy HavensMichael SellersDelton Grey
    • G01R33/385G01V3/00
    • G01R33/3854
    • The disclosed apparatus relates to a gradient coil assembly for a magnetic resonance imaging system. The gradient coil assembly comprises: at least two coils. The coils comprise: at least one conductor mechanically bonded via a nonconducting substrate. The bonding surface of the at least one conductor has been subjected to a surface treatment to improve the mechanical bonding properties of the bonding surface. The disclosed apparatus also relates to a magnetic imaging system. The magnetic imaging system comprises: a system controller; a gradient amplifier unit in operable communication with the system controller; a magnetic assembly in operable communication with the gradient amplifier. The magnetic assembly comprises: a gradient coil assembly comprising at least two coils. The coils comprise: at least one conductor mechanically bonded via a nonconducting substrate. A bonding surface of the at least one conductor has been subjected to a surface treatment to improve the mechanical bonding properties of the bonding surface. The disclosed method relates to assembling a gradient coil assembly. The method comprises: treating a bonding surface of at least one conductor; and bonding the at least one conductor to a nonconducting substrate.
    • 所公开的装置涉及用于磁共振成像系统的梯度线圈组件。 梯度线圈组件包括:至少两个线圈。 线圈包括:至少一个通过不导电基板机械地接合的导体。 已经对至少一个导体的接合表面进行了表面处理以改善接合表面的机械粘合性能。 所公开的装置还涉及磁性成像系统。 磁性成像系统包括:系统控制器; 梯度放大器单元,与所述系统控制器可操作地通信; 与梯度放大器可操作地通信的磁性组件。 磁性组件包括:包括至少两个线圈的梯度线圈组件。 线圈包括:至少一个通过不导电基板机械地接合的导体。 已经对至少一个导体的接合表面进行了表面处理,以改善接合表面的机械结合性能。 所公开的方法涉及组装梯度线圈组件。 该方法包括:处理至少一个导体的接合表面; 以及将所述至少一个导体结合到非导电衬底。