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    • 1. 发明专利
    • Nuclear magnetic resonance measuring method
    • 核磁共振测量方法
    • JP2009078141A
    • 2009-04-16
    • JP2008229687
    • 2008-09-08
    • Canon IncKyoto Univキヤノン株式会社国立大学法人京都大学
    • HISAIE KATSUAKIYOSHIMURA KIMIHIROYAMAUCHI FUMIOYANO TETSUYASHIRAKAWA MASAHIROAOYAMA YASUHIRO
    • A61B5/055G01N24/08
    • G01R33/485G01R33/4608G01R33/4633G01R33/4833G01R33/5605G01R33/5607
    • PROBLEM TO BE SOLVED: To provide a method for observing behavior, distribution, and concentration in a living body due to metabolism etc., of probe agent while suppressing influence on a living body, by MRS.
      SOLUTION: The nuclear magnetic resonance signal measuring method includes: a process for imparting an isotope-labeled compound, in which at least two nuclei which have each different nuclear magnetic resonance frequency and are bonded to each other are isotope-labeled at a higher ratio than a natural isotope abundance ratio, to a measurement sample; and a process for observing a nuclear magnetic resonance signal of a first nucleus derived from the isotope-labeled compound in the measurement sample by using a pulse sequence which can observe a nuclear magnetic resonance signal via magnetization transfer from the first nucleus to a second nucleus, from the second nucleus to a third nucleus, from the third nucleus to the second nucleus, and from the second nucleus to the first nucleus based on spin-spin coupling between three nuclei including at least two isotope-labeled nuclei, bonded to each other, and having each different nuclear magnetic resonance frequency in the isotope-labeled compound imparted to the measurement sample.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种用于通过MRS来抑制由于代谢等引起的生物体的行为,分布和浓度的方法,同时抑制对生物体的影响。 解决方案:核磁共振信号测量方法包括:赋予同位素标记化合物的方法,其中至少两个具有不同核磁共振频率的核并且彼此结合的核在同位素标记 比天然同位素丰度比更高的比例; 以及通过使用能够通过从第一核到第二核的磁化转移观察核磁共振信号的脉冲序列来观测来自测定样品中的同位素标记化合物的第一核的核磁共振信号的方法, 基于彼此结合的包含至少两个同位素标记的核的三个核之间的自旋 - 自旋耦合,从第二核到第三核,从第三核到第二核,从第二核到第一核, 并且在赋予测量样品的同位素标记化合物中具有各自不同的核磁共振频率。 版权所有(C)2009,JPO&INPIT
    • 5. 发明专利
    • Fluorescence microscope device
    • 荧光显微镜装置
    • JP2011180570A
    • 2011-09-15
    • JP2010109527
    • 2010-05-11
    • Jeol LtdKyoto Univ国立大学法人京都大学日本電子株式会社
    • SHIRAKAWA MASAHIROHARADA YOSHISHIGEYOKOTA HIROAKIYOSHINARI YOSUKETSUJI SEIGO
    • G02B21/06G01N21/64
    • PROBLEM TO BE SOLVED: To provide a fluorescence microscope device achieving selective visual field-observation of aimed fluorescence.
      SOLUTION: The fluorescence microscope device includes: an optical microscope 3 which irradiates a sample 16 including a phosphor 1 whose fluorescence intensity is varied by magnetic resonance with exciting light to observe the fluorescence of the phosphor 1; a high-frequency magnetic field generation part 5 which irradiates the sample 16 with high-frequency magnetic field for generating electron spin magnetic resonance; a modulation part 7 which generates a modulation signal for modulating the high-frequency magnetic field; a detector 9 which detects light intensity on a surface of the sample observed by the optical microscope 3 in each of a plurality of pixels at each sampling time while modulating the high-frequency magnetic field; and a processing unit 10 which extracts an object pixel in which time-sequential variation of the light intensity correlates with the modulation signal from the plurality of pixels.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供实现目标荧光的选择性视场观察的荧光显微镜装置。 解决方案:荧光显微镜装置包括:光学显微镜3,其照射包括荧光体1的样品16,荧光体1的荧光强度通过磁共振用激发光改变以观察荧光体1的荧光; 用于产生电子自旋磁共振的高频磁场照射样本16的高频磁场产生部分5; 生成用于调制高频磁场的调制信号的调制部7; 检测器9,其在调制高频磁场的同时,在每个采样时间检测由多个像素中的每个中的光学显微镜3观察到的样品的表面上的光强度; 以及处理单元10,其提取其中光强度的时间顺序变化与来自多个像素的调制信号相关的对象像素。 版权所有(C)2011,JPO&INPIT
    • 6. 发明专利
    • Magnetic resonance force microscope
    • 磁共振力显微镜
    • JP2007232596A
    • 2007-09-13
    • JP2006055443
    • 2006-03-01
    • Jeol LtdKyoto UnivYokohama City Univ公立大学法人横浜市立大学国立大学法人京都大学日本電子株式会社
    • TSUJI SEIGOYOSHINARI YOSUKESHIRAKAWA MASAHIROFURUKUBO TETSURO
    • G01B7/34G01Q60/50G01Q60/52G01Q60/54
    • G01Q60/08G01Q60/52
    • PROBLEM TO BE SOLVED: To provide a magnetic resonance force microscope capable of still more deepening the understanding of an MRI image. SOLUTION: A high frequency magnetic field producing device 31 is constituted so as to control the spin of a sample 21 (specimen) in a state that a cantilever 23 is self-excited in the high frequency magnetic field uniformly produced in the whole of the sample 21 by a cantilever self-exciting loop part and a frequency demodulator 26 measures the resonance frequency of the cantilever from the detection signal of a cantilever displacement measuring instrument 29 based on magnetic resonance force and also measure the resonance frequency shift of the cantilever and controls the scanner 22 so that the DC component Δv of the shift quantity of the resonance frequency of the cantilever becomes constant to adjust the distance Z from the surface of the sample 21 to the leading end of a probe 24. The atomic force image (AFM) of the sample 21 is formed by a scanner drive power supply 25. A magnetic resonance force image (MRFM) is formed by a phase detector 34 corresponding to the AC component δv of the resonance frequency shift quantity of the cantilever in the frequency demodulator 26. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够进一步加深MRI图像的理解的磁共振力显微镜。

      解决方案:一个高频磁场产生装置31构成为,以控制样品21(待测物)的的状态下,悬臂23是自激的高频磁场在整个均匀地产生的旋 通过悬臂自励环路部分的样本21的频率,频率解调器26基于磁共振力从悬臂位移测量仪29的检测信号测量悬臂的共振频率,并测量悬臂的共振频移 并控制扫描仪22,以使悬臂的共振频率的移位量的直流分量ΔV变得恒定,从样品21的表面调整的距离Z为探头24的原子力图像的前端( 样品21的AFM)由扫描仪驱动电源25.一种磁共振图像力(MRFM)形成由对应于AC分量相位检测器34上形成 (C)2007,JPO&INPIT:在频解调器26,

      COPYRIGHT悬臂的谐振频率偏移量v的