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    • 1. 发明授权
    • Method for determining median line
    • 方法确定中线
    • US5427100A
    • 1995-06-27
    • US12919
    • 1993-02-03
    • Noboru HigashiKoichi SanoTetsuo Yokoyama
    • Noboru HigashiKoichi SanoTetsuo Yokoyama
    • A61B5/055G01R33/48G01R33/54G01R33/56
    • G01R33/56
    • Disclosed is a method for automatically determining the median line of a selected region of a human body so as to simplify complex imaging required hithero for a magnetic resonance imaging apparatus, and, in the method, an artifact of the imaged selected region of the human body is utilized to automatically determine the median line. For example, two artifacts 1010 and 1020 intersecting each other appear from the superior sagittal sinus as shown in FIG. 1 when the direction of phase encoding is changed. By subtracting one of these artifacts 1010 and 1020 from the other and calculating the absolute value of the result of subtraction, the point 1030 of intersection of the artifacts determines the location of the superior sagittal sinus which is the source of apperance of the artifacts, so that the median line can be automatically determined on the basis of the result of determination of location of the superior sagittal sinus.
    • 公开了一种用于自动确定人体所选择的区域的中线的方法,以便简化对于磁共振成像设备所需的复合成像所需的触角,并且在该方法中,人体的成像选定区域的假象 用于自动确定中线。 例如,如图1所示,从上矢状窦出现两个彼此相交的假象1010和1020。 1当相位编码的方向改变时。 通过从另一个中减去这些伪影1010和1020中的一个并计算减法结果的绝对值,伪像的交点点1030确定作为人造物的外观源的上矢状窦的位置,因此 可以根据确定上矢状窦位置的结果自动确定中线。
    • 2. 发明授权
    • Flat pattern image generation of internal structure data
    • 平面图形图像生成内部结构数据
    • US5748193A
    • 1998-05-05
    • US514266
    • 1995-08-11
    • Noboru HigashiKoichi Sano
    • Noboru HigashiKoichi Sano
    • G06T3/00G06T1/00G06T15/00G06T19/00G06T15/10
    • G06T15/10
    • Three-dimensional image data of an object is generated by an x-ray CT or magnetic resonance imaging system, and used to produce a flat pattern of the whole surface image of the object. An imaginary slit is provided in a three-dimensional space of the three-dimensional image data, and the image seen through this slit is generated by volume rendering. The above operation is repeated as this imaginary slit is moved along the periphery of the object of the three-dimensional image data. The generated image data are arranged laterally to produce a flat pattern. All the three-dimensional image data are not processed by volume rendering, but only the portion limited to a depth is processed to prevent the structure information of the rear side of the object from being mixed in the flat pattern.
    • 物体的三维图像数据由X射线CT或磁共振成像系统产生,用于产生物体的整个表面图像的平坦图案。 在三维图像数据的三维空间中设置虚拟狭缝,并且通过体积绘制产生通过该狭缝看到的图像。 重复上述操作,因为该虚拟狭缝沿着三维图像数据的对象的周边移动。 生成的图像数据被横向布置以产生平坦图案。 所有三维图像数据都不会通过体绘制进行处理,而只处理限于深度的部分,以防止对象背面的结构信息在平面图案中混合。
    • 8. 发明授权
    • Method and apparatus for NMR imaging
    • NMR成像方法和装置
    • US4905699A
    • 1990-03-06
    • US92303
    • 1987-09-02
    • Koichi SanoTetsuo YokoyamaHideaki Koizumi
    • Koichi SanoTetsuo YokoyamaHideaki Koizumi
    • A61B5/055
    • A61B5/055A61B5/7257
    • In order to permit the detection of a respiratory motion and an imaging synchronized with the respiration by an NMR imaging apparatus itself without any special hardware, a sequence for detecting the respiratory motion is repeated for a short time immediately before the measurement of an image signal to detect the position and speed of the respiratory motion, and a desired image signal is measured in synchronism with the detected position. Alternatively, the respiratory motion is detected immediately after the measurement of an image signal, and the measured image signal is corrected in accordance with the detected amount to obtain a desired image signal synchronized with the respiration.
    • 为了允许通过NMR成像设备本身检测呼吸运动和与呼吸同步的成像,而没有任何特殊的硬件,用于检测呼吸运动的顺序在测量图像信号之前的短时间内被重复到 检测呼吸运动的位置和速度,并且与检测到的位置同步地测量期望的图像信号。 或者,在测量图像信号之后立即检测呼吸运动,并且根据检测到的量校正测量的图像信号,以获得与呼吸同步的期望的图像信号。