会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明授权
    • Magnetic resonance imaging method
    • 磁共振成像方法
    • US4724388A
    • 1988-02-09
    • US869976
    • 1986-06-02
    • Koichi SanoTetsuo YokoyamaHideaki Koizumi
    • Koichi SanoTetsuo YokoyamaHideaki Koizumi
    • G01R33/565G01R33/20
    • G01R33/56518G01R33/56563
    • In order to measure a static field distribution with one scanning operation and to make image distortion corrections with the static field distribution and a gradient field distribution simultaneously considered, an image is reconstructed using a spin echo signal produced under the condition that a time interval between a 90.degree. pulse and a 180.degree. pulse differs from an interval between the 180.degree. pulse and the time origin of the spin echo signal, the static field distribution is evaluated from the relation of distortions to phase errors free from a phase distortion attributed to the characteristic of a detecting part and a phase distortion attributed to the dynamic characteristic of the gradient field, a relations existing between the spatial distortion and phase distortion of the reconstructed image and a magnetic field distribution including the gradient field is obtained, and the distortion magnitude of the reconstructed image is evaluated from the measured magnetic field distribution.
    • 为了通过一次扫描操作测量静态场分布,并且同时考虑静态场分布和梯度场分布进行图像失真校正,使用自旋回波信号来重构图像,该自旋回波信号是在 90°脉冲和180°脉冲与180°脉冲与自旋回波信号的时间原点之间的间隔不同,静态场分布从失真和相位误差的关系来评估,该相位误差不包括归因于特性的相位失真 得到归因于梯度场的动态特性的检测部分和相位失真,获得重建图像的空间失真和相位失真之间存在的关系以及包括梯度场的磁场分布,并且, 从测量的磁场分布评估重建图像 。
    • 7. 发明授权
    • Image reconstructing device for use in magnetic resonance imaging
apparatus
    • 用于磁共振成像装置的图像重建装置
    • US4996480A
    • 1991-02-26
    • US418224
    • 1989-10-06
    • Akira MaedaKoichi SanoTetsuo YokoyamaHideaki Koizumi
    • Akira MaedaKoichi SanoTetsuo YokoyamaHideaki Koizumi
    • G01R33/54A61B5/055G01R33/32G01R33/485G01R33/565
    • G01R33/56527G01R33/485
    • A magnetic resonance signal is detected at a plurality of different periods of time in accordance with the phase shift of a plurality of chemical shift components while varying the intensity of a gradient magnetic field with time, a plurality of magnetic resonance signal thus obtained are used for estimating a magnetic resonance signal due to only a predetermined chemical shift component, the phase rotation of the predetermined chemical shift component is corrected in the estimated resonance signal, and further a blur due to chemical shift components other than the predetermined one is corrected to obtain a tomogram formed of only the predetermined chemical shift component. Alternatively, one measured resonance signal is modified by an image reconstruction algorithm peculiar to each of a plurality of chemical shift components, to obtain tomograms corresponding to the chemical shift components.
    • 在随时间变化梯度磁场的强度的同时,根据多个化学位移分量的相移,在多个不同的时间段检测磁共振信号,由此得到的多个磁共振信号用于 估计由于只有预定的化学位移分量而产生的磁共振信号,在估计的共振信号中校正预定化学位移分量的相位旋转,并且进一步校正由于除了预定的化学位移分量之外的化学位移分量的模糊以获得 仅由预定的化学位移分量形成的断层图像。 或者,通过对多个化学位移分量中的每一个特有的图像重构算法修改一个测量的共振信号,以获得对应于化学位移分量的断层图像。
    • 8. 发明授权
    • Image constructing device included in a magnetic resonance imaging
apparatus
    • 包含在磁共振成像装置中的图像构成装置
    • US4901021A
    • 1990-02-13
    • US262282
    • 1988-10-25
    • Akira MaedaKoichi SanoTetsuo YokoyamaHideaki Koizumi
    • Akira MaedaKoichi SanoTetsuo YokoyamaHideaki Koizumi
    • G01R33/485G01R33/565
    • G01R33/485G01R33/56527
    • A magnetic resonance signal is detected at a plurality of different periods of time in accordance with the phase shift of a plurality of chemical shift components while varying the intensity of a gradient magnetic field with time, a plurality of magnetic resonance signals thus obtained are used for estimating a magnetic resonance signal due to only a predetermined chemical shift component, the phase rotation of the predetermined chemical shift component is corrected in the estimated resonance signal, and further a blur due to chemical shift components other than the predetermined one is corrected to obtain a tomogram formed of only the predetermined chemical shift component. Alternatively, one measured resonance signal is modified by an image construction algorithm peculiar to each of a plurality of chemical shift components, to obtain tomograms corresponding to the chemical shift components.
    • 在随时间变化梯度磁场的强度的同时,根据多个化学位移分量的相移,在多个不同的时间段内检测磁共振信号,由此得到的多个磁共振信号用于 估计由于只有预定的化学位移分量而产生的磁共振信号,在估计的共振信号中校正预定化学位移分量的相位旋转,并且进一步校正由于除了预定的化学位移分量之外的化学位移分量的模糊以获得 仅由预定的化学位移分量形成的断层图像。 或者,一个测量的谐振信号通过多个化学位移分量中的每一个特有的图像构造算法进行修改,以获得对应于化学位移分量的断层图像。
    • 10. 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。