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    • 1. 发明授权
    • Ultrasonic diagnostic apparatus and ultrasonic image display method
    • 超声波诊断仪和超声波图像显示方法
    • US09514564B2
    • 2016-12-06
    • US13879062
    • 2011-07-28
    • Takehiro Tsujita
    • Takehiro Tsujita
    • G06T15/08A61B8/08A61B8/14A61B8/00A61B8/06
    • G06T15/08A61B8/06A61B8/14A61B8/463A61B8/466A61B8/483A61B8/485A61B8/488A61B8/5246
    • For generating ultrasonic projection images in which various kind of ultrasonic projection images have been appropriately combined, the invention is provided with: a storage unit that stores tomographic image volume data and elastic image volume data; a volume rendering unit that generates tomographic projection images by volume rendering on the basis of the tomographic image volume data; a display device that displays the ultrasonic projection images generated by the volume rendering unit; and an operation unit for inputting commands to control the volume rendering unit. For one of the rendering spaces partitioned by a cutting plane set in the rendering space by a command input from the operation unit, the volume rendering unit renders voxels of tomographic image volume data corresponding to the voxels of elastic image volume data that have elasticity values satisfying a set threshold value, and generates and displays the tomographic projection image on the display device.
    • 为了产生适当组合各种超声波投影图像的超声波投影图像,本发明提供有:存储单元,其存储断层图像体积数据和弹性图像体积数据; 体积绘制单元,其基于所述断层图像体积数据,通过体积绘制来生成层析投影图像; 显示装置,显示由体绘制单元生成的超声波投影图像; 以及用于输入命令以控制体绘制单元的操作单元。 对于由通过从操作单元输入的命令在绘制空间中设置的切割平面分割的渲染空间之一,体绘制单元呈现与具有满足的弹性值的弹性图像体数据的体素相对应的断层图像体积数据的体素 设定阈值,并且在显示装置上生成并显示断层图像投影图像。
    • 7. 发明授权
    • Gradient coil, magnetic resonance imaging device, and method for designing coil pattern
    • 梯度线圈,磁共振成像装置和设计线圈图案的方法
    • US09389291B2
    • 2016-07-12
    • US13511820
    • 2010-11-26
    • Mitsushi Abe
    • Mitsushi Abe
    • G01R33/385G01R33/20G01R33/421G01R33/565
    • G01R33/385G01R33/20G01R33/4215G01R33/56518
    • A method for designing a coil pattern, whereby the production of an error magnetic field and further an eddy current can be suppressed to improve the quality of a cross-sectional image irrespective of cylindrical cross-sectional shape of the main coil and the shield coil. The difference between the initial values of the target magnetic field and the magnetic field vector is set as a difference target magnetic field. An approximate value of the current potential vector that produces the difference target magnetic field is represented by a polynomial of an eigenvector group of the current potential. The coefficient of each of the terms of the polynomial is determined on the basis of the singular value and the eigenvector group of the magnetic field distribution.
    • 一种用于设计线圈图案的方法,由此可以抑制误差磁场和另外的涡流的产生,以提高横截面图像的质量,而与主线圈和屏蔽线圈的圆柱形截面形状无关。 将目标磁场的初始值和磁场矢量之间的差设定为差分目标磁场。 产生差分目标磁场的电流电位矢量的近似值由当前电位的特征向量组的多项式表示。 基于磁场分布的奇异值和特征向量组来确定多项式的每个项的系数。
    • 8. 发明授权
    • Magnetic resonance imaging device
    • 磁共振成像装置
    • US09389289B2
    • 2016-07-12
    • US13881739
    • 2011-10-26
    • Toru ShiraiYoshitaka BitoSatoshi HirataYoshihisa SoutomeYo Taniguchi
    • Toru ShiraiYoshitaka BitoSatoshi HirataYoshihisa SoutomeYo Taniguchi
    • G01R33/36A61B5/055G01R33/465G01R33/48G01R33/485G01R33/561
    • G01R33/3621A61B5/055G01R33/465G01R33/4828G01R33/485G01R33/5611
    • Images of two or more kinds of substances showing different chemical shifts, such as water image and metabolite image, are obtained without extending measurement time. For example, images of two or more kinds of desired substances showing different chemical shifts, such as water image and metabolite image, are obtained by one time of execution of an imaging sequence. In this execution, a pre-pulse is applied so that signals of the substances to be separated shift on the image, and magnetic resonance signals are received with receiver RF coils in a number not smaller than the number of types of the substances to be separated. An image reconstructed from the magnetic resonance signals is separated into images of the individual substances using sensitivity maps of the receiver RF coils. Then, correction is performed for returning the shifted image to the original position. Further, residual signals induced by errors generated in the measurement and the separation processing are eliminated by using spectroscopic images obtained after the separation.
    • 在不延长测量时间的情况下,获得显示不同化学位移的两种或更多种物质的图像,例如水图像和代谢物图像。 例如,通过一次执行成像序列,可以获得显示不同化学位移的两种或更多种所需物质的图像,例如水图像和代谢物图像。 在该执行中,施加预脉冲,使得要分离的物质的信号在图像上移动,并且用接收器RF线圈​​接收不少于待分离物质的数量的数量的磁共振信号 。 使用接收机RF线圈的灵敏度图将从磁共振信号重构的图像分离成各个物质的图像。 然后,执行用于将移动的图像返回到原始位置的校正。 此外,通过使用分离后获得的分光图像来消除由测量和分离处理中产生的误差引起的残留信号。
    • 9. 发明申请
    • X-RAY CT APPARATUS AND IMAGE RECONSTRUCTION METHOD
    • X射线CT设备和图像重建方法
    • US20160183900A1
    • 2016-06-30
    • US14905057
    • 2014-07-24
    • HITACHI MEDICAL CORPORATION
    • Hideaki FUJIITetsuo NAKAZAWA
    • A61B6/00G06T11/00A61B6/03
    • A61B6/5205A61B6/032A61B6/4021A61B6/4435A61B6/465A61B6/467A61B6/469G06T3/4069G06T11/005G06T11/006
    • In an FFS method that improves spatial resolution by moving an X-ray focal spot to multiple positions to acquire projection data, in order to provide an X-ray CT apparatus and an image reconstruction method that enables to improve spatial resolution of the entire effective field of view without reducing a rotational speed, the X-ray focal spot in the X-ray tube device 101 is shifted to acquire focal shift projection data (FFS projection data), the virtual view generation unit 126 up-samples the FFS projection data (generates a virtual view) in the view direction, and the reconstruction computing unit 127 reconstructs an image using actual data of the FFS projection data in the central region 604 closer to the image center than a predetermined boundary and using the up-sampled projection data in the peripheral region 603 outside the boundary in an image reconstruction computing process.
    • 在通过将X射线焦点移动到多个位置以获取投影数据来提高空间分辨率的FFS方法中,为了提供能够提高整个有效场的空间分辨率的X射线CT装置和图像重建方法, 在不降低旋转速度的情况下,X射线管装置101中的X射线焦斑被移位以获得焦点偏移投影数据(FFS投影数据),虚拟视图生成单元126对FFS投影数据进行上采样 在视野方向生成虚拟视图),重建计算单元127使用比预定边界更靠近图像中心的中心区域604中的FFS投影数据的实际数据来重建图像,并且使用上采样的投影数据 外围区域603在图像重建计算处理中的边界外。