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    • 1. 发明申请
    • METHOD TO CONTROL A MAGNETIC RESONANCE SYSTEM
    • 控制磁共振系统的方法
    • US20080231274A1
    • 2008-09-25
    • US12051923
    • 2008-03-20
    • Joerg Ulrich FontiusMarian LattkaJuergen NistlerFranz Schmitt
    • Joerg Ulrich FontiusMarian LattkaJuergen NistlerFranz Schmitt
    • G01R33/483
    • G01R33/36G01R33/34046G01R33/3415G01R33/3607G01R33/5612G01R33/5659
    • In a method for controlling a magnetic resonance system having a radio-frequency antenna structure and a number of individually controllable transmission channels, respective parallel radio-frequency signals are emitted via the transmission channels for generation of a desired radio-frequency field distribution in at least one specific volume region within an examination volume of the magnetic resonance system. A digital signal is generated for each of the transmission channels and is modulated on a carrier frequency. The radio-frequency signal so generated is transmitted via a radio-frequency signal path to the radio-frequency antenna structure and is amplified therein in a radio-frequency power amplifier. The digital signal is manipulated in a characteristic curve correction device on the basis of a correction characteristic curve predetermined for the respective radio-frequency signal path such that a distortion of the radio-frequency signal caused in the appertaining radio-frequency signal path is at least partially compensated. Respective individual correction characteristic curves for a specific measurement are predetermined for the various transmission channels dependent on a field distribution parameter that defines the desired radio-frequency field distribution. A magnetic resonance system implements such a method.
    • 在一种用于控制具有射频天线结构和多个可独立控制的传输信道的磁共振系统的方法中,经由传输信道发射各自的并行射频信号,用于至少产生所需的射频场分布 在磁共振系统的检查体积内的一个比体积区域。 为每个传输信道生成数字信号,并在载波频率上进行调制。 如此生成的射频信号经由射频信号路径发送到射频天线结构,并且在射频功率放大器中被放大。 基于针对各个射频信号路径预定的校正特性曲线,在特性曲线校正装置中操作数字信号,使得在相应射频信号路径中引起的射频信号的失真至少为 部分补偿。 根据限定期望的射频场分布的场分布参数,针对各种传输信道预先确定特定测量的各自的校正特性曲线。 磁共振系统实现这种方法。
    • 5. 发明授权
    • Method for adjustment of a B1 field of a magnetic resonance apparatus
    • 用于调整磁共振装置的B1场的方法
    • US07902822B2
    • 2011-03-08
    • US12051127
    • 2008-03-19
    • Joerg Ulrich FontiusFranz SchmittKarsten Wicklow
    • Joerg Ulrich FontiusFranz SchmittKarsten Wicklow
    • G01V3/00
    • G01R33/583G01R33/288G01R33/36G01R33/5608G01R33/5612G01R33/5659
    • In a method for adjustment of a B1 field in a magnetic resonance apparatus, the position of the measurement subject relative to a coordinate system is determined from a plurality of measurement subjects with a morphological magnetic resonance measurement. Respective tissue types of the measurement subject are determined using three-dimensional measurement subject data and a segmentation of the measurement subject into regions is effected using the tissue types having known dielectric properties. The segmentation and the association for all positions of the measurement subject are recorded for all subjects in respective entries of a database. A radio-frequency simulation for transmission coils is implemented with the entries of the database wherein electrical field distributions and/or B1 field distributions related to spatial elements are determined and are entered as results into the database, that is then used further magnetic resonance examinations.
    • 在用于调整磁共振装置中的B1场的方法中,从具有形态磁共振测量的多个测量对象确定测量对象相对于坐标系的位置。 使用三维测量对象数据确定测量对象的各种组织类型,并且使用具有已知介电特性的组织类型将测量对象分割成区域。 为数据库的各个条目中的所有科目记录测量对象的所有位置的分割和关联。 用数据库条目实现传输线圈的射频仿真,其中确定与空间元素相关的电场分布和/或B1场分布,并作为结果输入到数据库中,然后使用进一步的磁共振检查。
    • 7. 发明申请
    • METHOD FOR ADJUSTMENT OF A B1 FIELD OF A MAGNETIC RESONANCE APPARATUS
    • 用于调整B1磁场谐振装置的方法
    • US20080231270A1
    • 2008-09-25
    • US12051127
    • 2008-03-19
    • Joerg Ulrich FontiusFranz SchmittKarsten Wicklow
    • Joerg Ulrich FontiusFranz SchmittKarsten Wicklow
    • G01R33/48
    • G01R33/583G01R33/288G01R33/36G01R33/5608G01R33/5612G01R33/5659
    • In a method for adjustment of a B1 field in a magnetic resonance apparatus, the position of the measurement subject relative to a coordinate system is determined from a plurality of measurement subjects with a morphological magnetic resonance measurement. Three-dimensionally associable measurement subject data are determined from the measurement subject. Respective tissue types of the measurement subject are determined using the three-dimensional measurement subject data and a segmentation of the measurement subject into regions is effected using the tissue types. Known dielectric properties are respectively associated with the tissue types. The segmentation and the association for all positions of the measurement subject are recorded in respective entries of a database, such that the database contains all entries of the measurement subjects. A radio-frequency simulation for an transmission coils is implemented with the entries of the database, with which electrical field distributions and/or B1 field distributions related to spatial elements are determined as a simulation result and are entered as results into the database. For further magnetic resonance examinations, the entries of the database are used for determination of an optimized current distribution for elements of a transmission coil with which the B1 field is ultimately adjusted.
    • 在用于调整磁共振装置中的B1场的方法中,从具有形态磁共振测量的多个测量对象确定测量对象相对于坐标系的位置。 从测量对象确定三维可关联的测量对象数据。 使用三维测量对象数据确定测量对象的各种组织类型,并且使用组织类型对测量对象进入区域进行分割。 已知的介电性质分别与组织类型相关。 将测量对象的所有位置的分割和关联记录在数据库的相应条目中,使得数据库包含测量对象的所有条目。 用数据库的条目实现传输线圈的射频仿真,将与空间元素相关的电场分布和/或B1场分布确定为模拟结果并作为结果输入到数据库中。 对于进一步的磁共振检查,数据库的条目用于确定最终调整B1场的传输线圈元件的优化电流分布。
    • 8. 发明授权
    • Method to control a magnetic resonance system with individually controllable RF transmission channels
    • 用单独控制的RF传输通道控制磁共振系统的方法
    • US07719281B2
    • 2010-05-18
    • US12051923
    • 2008-03-20
    • Joerg Ulrich FontiusMarian LattkaJuergen NistlerFranz Schmitt
    • Joerg Ulrich FontiusMarian LattkaJuergen NistlerFranz Schmitt
    • G01V3/00
    • G01R33/36G01R33/34046G01R33/3415G01R33/3607G01R33/5612G01R33/5659
    • In a method for controlling a magnetic resonance system having a radio-frequency antenna structure and a number of individually controllable transmission channels, respective parallel radio-frequency signals are emitted via the transmission channels for generation of a desired radio-frequency field distribution in at least one specific volume region within an examination volume of the magnetic resonance system. A digital signal is generated for each of the transmission channels and is modulated on a carrier frequency. The radio-frequency signal so generated is transmitted via a radio-frequency signal path to the radio-frequency antenna structure and is amplified therein in a radio-frequency power amplifier. The digital signal is manipulated in a characteristic curve correction device on the basis of a correction characteristic curve predetermined for the respective radio-frequency signal path such that a distortion of the radio-frequency signal caused in the appertaining radio-frequency signal path is at least partially compensated. Respective individual correction characteristic curves for a specific measurement are predetermined for the various transmission channels dependent on a field distribution parameter that defines the desired radio-frequency field distribution. A magnetic resonance system implements such a method.
    • 在一种用于控制具有射频天线结构和多个可独立控制的传输信道的磁共振系统的方法中,经由传输信道发射各自的并行射频信号,用于至少产生所需的射频场分布 在磁共振系统的检查体积内的一个比体积区域。 为每个传输信道生成数字信号,并在载波频率上进行调制。 如此生成的射频信号经由射频信号路径发送到射频天线结构,并且在射频功率放大器中被放大。 基于针对各个射频信号路径预定的校正特性曲线,在特性曲线校正装置中操作数字信号,使得在相应射频信号路径中引起的射频信号的失真至少为 部分补偿。 根据限定期望的射频场分布的场分布参数,针对各种传输信道预先确定特定测量的各自的校正特性曲线。 磁共振系统实现这种方法。
    • 9. 发明授权
    • Method and device for monitoring radio-frequency exposure in a magnetic resonance measurement
    • 用于监测磁共振测量中射频暴露的方法和装置
    • US07622921B2
    • 2009-11-24
    • US11965809
    • 2007-12-28
    • Joerg Ulrich FontiusJuergen NistlerWolfgang RenzFranz SchmittKarsten Wicklow
    • Joerg Ulrich FontiusJuergen NistlerWolfgang RenzFranz SchmittKarsten Wicklow
    • G01V3/00
    • G01R33/3415G01R33/288G01R33/5612
    • In a method and device for monitoring the physiologically effective radio-frequency exposure in at least one specific volume region of an examination subject in a magnetic resonance data acquisition scan in a magnetic resonance system, amplitude values are acquired that respectively represent, at specific acquisition points in time, a signal amplitude of the radio-frequency signals emitted or to be emitted via the radio-frequency signal channels. Also, phase values are acquired that represent the phases of the appertaining radio-frequency signals at these points in time. Local exposure values are then determined on the basis of the amplitude values and phase values, respectively representing a physiological exposure that the radio-frequency pulses cause at the examination subject at a specific location at a specific time. Based on this, exposure control values are determined that are compared with predetermined exposure limit values. When an exposure limit values is reached or exceeded, a control signal is output.
    • 在用于在磁共振系统的磁共振数据采集扫描中监测检查对象的至少一个特定体积区域中的生理上有效的射频暴露的方法和装置中,获取分别表示在特定采集点 在时间上,经由射频信号信道发射或将要发射的射频信号的信号幅度。 此外,获取代表在这些时间点处的无线电频率信号的相位的相位值。 然后根据振幅值和相位值来确定本地曝光值,分别表示在特定时间在特定位置处的检查对象发生的射频脉冲引起的生理暴露。 基于此,确定与预定曝光极限值进行比较的曝光控制值。 当达到或超过曝光限制值时,输出控制信号。
    • 10. 发明申请
    • METHOD AND DEVICE FOR MONITORING RADIO-FREQUENCY EXPOSURE IN A MAGNETIC RESONANCE MEASUREMENT
    • 用于监测磁共振测量中的无线电频率接触的方法和装置
    • US20080157765A1
    • 2008-07-03
    • US11965809
    • 2007-12-28
    • Joerg Ulrich FontiusJuergen NistlerWolfgang RenzFranz SchmittKarsten Wicklow
    • Joerg Ulrich FontiusJuergen NistlerWolfgang RenzFranz SchmittKarsten Wicklow
    • G01R33/483
    • G01R33/3415G01R33/288G01R33/5612
    • In a method and device for monitoring the physiologically effective radio-frequency exposure in at least one specific volume region of an examination subject in a magnetic resonance data acquisition scan in a magnetic resonance system, the magnetic resonance system having a radio-frequency antenna structure with a number of individually controllable radio-frequency signal channels for generation of radio-frequency field distributions in an examination volume including the examination subject, amplitude values are acquired that respectively represent, at specific acquisition points in time, a signal amplitude of the radio-frequency signals emitted or to be emitted via the radio-frequency signal channels in the course of the magnetic resonance measurement. Also, phase values are acquired that represent the phases of the appertaining radio-frequency signals at these points in time. Local exposure values are then determined on the basis of the amplitude values and phase values, these local exposure values respectively representing a physiological exposure that the radio-frequency pulses cause at the examination subject at a specific location at a specific time. Based on this, exposure control values are determined that are compared with predetermined exposure limit values. When an exposure limit values is reached or exceeded, a control signal is output.
    • 在用于在磁共振系统的磁共振数据采集扫描中监测检查对象的至少一个特定体积区域中的生理上有效的射频暴露的方法和装置中,所述磁共振系统具有射频天线结构, 在包括检查对象的检查体积中产生用于产生射频场分布的多个独立控制的射频信号通道,获取分别在特定采集时间点表示射频信号幅度的振幅值 在磁共振测量过程中通过射频信号通道发射或发射的信号。 此外,获取代表在这些时间点处的无线电频率信号的相位的相位值。 然后基于振幅值和相位值来确定局部曝光值,这些局部曝光值分别表示在特定时间的特定位置的射频脉冲在检查对象下引起的生理暴露。 基于此,确定与预定曝光极限值进行比较的曝光控制值。 当达到或超过曝光限制值时,输出控制信号。