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    • 1. 发明授权
    • High speed NMR spectroscopic imaging method
    • 高速NMR光谱成像方法
    • US4797616A
    • 1989-01-10
    • US151901
    • 1988-02-03
    • Shigeru MatsuiTakashi OnoderaKensuke SekiharaHidemi ShionoHideki Kohno
    • Shigeru MatsuiTakashi OnoderaKensuke SekiharaHidemi ShionoHideki Kohno
    • G01R33/32A61B5/055A61B10/00G01R33/44G01R33/48G01R33/485G01R33/20
    • G01R33/485
    • An NMR spectroscopic imaging method of obtaining separate spin distribution images for respective spectral components of the spectrum of an NMR signal caused by the chemical shift of nuclides of interest in an object includes providing for a transversal magnetization signal of the object placed in a static magnetic field. A position of the signal in a phase domain is translated in a K-space from the origin thereof. Further, the signal is sampled while rotating a position of the signal in the K-space plural times on a certain circle in the K-space by applying a rotating field gradient, thereby to obtain a group of signal data. Signal data trains each of which is composed of signal data present at the same position on the K-space in the signal data group obtained by the sampling during the plural signal rotations, is subjected to Fourier transformations, respectively, thereby effecting a spectral analysis of the NMR signal.
    • 由对象物质的化学位移引起的核磁共振信号频谱的各频谱分量的分离自旋分布图像的NMR分光成像方法包括提供放置在静磁场中的物体的横向磁化信号 。 信号在相位域中的位置从其原点在K空间中平移。 此外,在通过施加旋转场梯度在K空间中的某个圆上多次旋转K空间中的信号的位置的同时对信号进行采样,从而获得一组信号数据。 由多个信号旋转中的采样获得的信号数据组中的与K空间上的相同位置处的信号数据组成的信号数据串分别进行傅里叶变换,从而进行频谱分析 NMR信号。
    • 3. 发明授权
    • High speed imaging method with three-dimensional NMR
    • 高速成像方法采用三维NMR
    • US4716369A
    • 1987-12-29
    • US746663
    • 1985-06-20
    • Kensuke SekiharaShigeru MatsuiHideki KohnoEtsuji YamamotoHidemi Shiono
    • Kensuke SekiharaShigeru MatsuiHideki KohnoEtsuji YamamotoHidemi Shiono
    • G01R33/485G01R33/561G01R33/20
    • G01R33/485G01R33/5615G01R33/5616
    • The present invention is an imaging method using three-dimensional NMR to which an echo-planar method is applied. After excitation of nuclear spins, the gradient magnetic field Gx for phase-encoding is applied and there is repeated a sequence of measuring and obtaining an echo train of spin-echoes with a constant gradient magnetic field Gx and a periodically-inverted gradient magnetic field Gy, as varying the amount of encoding, so as to obtain the three-dimensional imaging by the Fourier-conversion. Moreover, after the selective excitation of spins within an X-Y surface, a 180.degree. radio frequency pulse is applied. As varying the time difference .tau..sub..epsilon. between the interval from the excitation until the application of the 180.degree. radio frequency pulse and the interval from the application thereof until a peak of a first echo of an echo train, three-dimensional imaging is carried out with a chemical shift axis as one axis by repeating the sequence and accomplishing Fourier-conversion with .tau..sub..epsilon. as a numerical variable.
    • 本发明是使用采用回波平面法的三维NMR的成像方法。 在激励核自旋之后,施加用于相位编码的梯度磁场Gx,并且重复测量并获得具有恒定梯度磁场Gx和周期性反转梯度磁场Gy的自旋回波回波序列的序列 ,因为改变编码量,从而通过傅里叶变换获得三维成像。 此外,在X-Y表面中的自旋选择性激发之后,施加180°射频脉冲。 随着从激励到施加180°射频脉冲的间隔与从应用到应用的间隔直到回波列的第一回波的峰值之间的时间差τεε改变,三维成像是 化学位移轴作为一个轴,通过重复该序列,并以tauε作为数值变量进行傅里叶变换。
    • 5. 发明授权
    • Method of measuring the static magnetic field distribution in an NMR
inspection system
    • 在NMR检查系统中测量静态磁场分布的方法
    • US4672318A
    • 1987-06-09
    • US696909
    • 1985-01-31
    • Kensuke SekiharaEtsuji YamamotoShigeru MatsuiHideki Kohno
    • Kensuke SekiharaEtsuji YamamotoShigeru MatsuiHideki Kohno
    • G01R33/20A61B5/055A61B10/00G01R33/24G01R33/38G01R33/387
    • G01R33/24
    • A method of measuring a static magnetic field distribution in a nuclear magnetic resonance (NMR) inspection system which comprises magnetic field generator for producing a static magnetic field, inclination or gradient magnetic fields and a high-frequency magnetic field, a signal detector for sensing nuclear magnetic resonance signals from an inspection sample, a computer for processing output signals from the signal detector and an output device for providing a computational result of the computer, wherein a time interval t.sub.1 from the center of a 90.degree.-pulse high-frequency magnetic field to the center of a 180.degree.-pulse high-frequency magnetic field is made different by a time difference t.sub.0 from a time interval t.sub.2 from the center of the 180.degree.-pulse high-frequency magnetic field to a peak of a spin echo, so that static magnetic field distribution is calculated based on the computer output which corresponds to the difference of the two time intervals.
    • 一种在核磁共振(NMR)检查系统中测量静磁场分布的方法,其包括用于产生静磁场,倾斜或梯度磁场和高频磁场的磁场发生器,用于感测核的信号检测器 来自检查样本的磁共振信号,用于处理来自信号检测器的输出信号的计算机和用于提供计算机的计算结果的输出装置,其中从90°脉冲高频磁场的中心起的时间间隔t1 从180°脉冲高频磁场的中心到从180°脉冲高频磁场的中心到自旋回波的峰值的时间间隔t2由时间差t0变化到180°脉冲高频磁场的中心,因此 基于对应于两个时间间隔的差的计算机输出来计算静态磁场分布。
    • 7. 发明授权
    • NMR imaging method
    • NMR成像方法
    • US4727325A
    • 1988-02-23
    • US919767
    • 1986-10-16
    • Shigeru MatsuiKensuke SekiharaHideki Kohno
    • Shigeru MatsuiKensuke SekiharaHideki Kohno
    • G01R33/54G01R33/561G01R33/20
    • G01R33/54G01R33/5615G01R33/5616
    • An NMR imaging method using a rotating field gradient is disclosed in which transverse magnetization is prepared in a portion of an object to be inspected, by the 90.degree.-180.degree. RF pulse excitation, a rotating field gradient is generated to perform a sampling operation for an output signal in a state that the position of signal in a phase space is revolved, the intensity or rotational speed of the rotating field gradient is varied stepwise or continuously to obtain data arranged on concentric circles or a spiral in the phase space, and the data thus obtained undergoes Fourier transformation in each of a plurality of radial directions or two-dimensional Fourier transformation, to form an image of spin distribution.
    • 公开了使用旋转磁场梯度的NMR成像方法,其中通过90°-180°RF脉冲激励在待测物体的一部分中制备横向磁化,产生旋转场梯度以执行采样操作 在相位空间中的信号的位置旋转的状态下的输出信号,旋转场梯度的强度或旋转速度逐步或连续地变化,以获得布置在相空间中的同心圆或螺旋上的数据,并且 由此获得的数据在多个径向方向或二维傅里叶变换中进行傅里叶变换,以形成自旋分布的图像。