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    • 1. 发明授权
    • Spiral scanning computed tomography apparatus, and method for operating same, for cardiac imaging
    • 用于心脏成像的螺旋扫描计算机断层摄影装置及其操作方法
    • US06266553B1
    • 2001-07-24
    • US09151588
    • 1998-09-11
    • Manfred FluhrerKlaus Klingenbeck-RegnAndreas LutzJudith Regn
    • Manfred FluhrerKlaus Klingenbeck-RegnAndreas LutzJudith Regn
    • A61B505
    • A61B6/032A61B6/027A61B6/541G01N23/046G01N2223/419G01N2223/612
    • In a computed tomography apparatus, and a method for operating same, for obtaining cardiac images, a spiral scan of a measurement volume containing a patient's heart is conducted, the production of the scanning data during the spiral scanning being synchronized with an ECG signal from the patient, in order to produce a graphic representation of the examination volume, and thus an image of the patient's heart. The ECG signal is employed to control the generation of the data during the spiral scanning at phase of the cardiac cycle wherein minimum movement of the heart takes place. The chronological correlation between the recording of the scanning data and the ECG signal is fixed, so that within each number of successive time intervals, a dataset is obtained completely within that time interval. The datasets from the successive time intervals are then combined to produce an image of the heart. Since the component images are all obtained in a low-motion phase of the heart, the resulting overall image is particularly sharp.
    • 在计算机断层摄影装置及其操作方法中,为了获得心脏图像,进行包含患者心脏的测量体积的螺旋扫描,螺旋扫描期间的扫描数据的产生与来自 患者,以便产生检查体积的图形表示,并因此产生患者心脏的图像。 ECG信号用于在心脏周期的阶段的螺旋扫描期间控制数据的产生,其中发生心脏的最小运动。 扫描数据记录与ECG信号之间的时间顺序相关性是固定的,因此在每个连续时间间隔内,在该时间间隔内完全获得数据集。 然后将来自连续时间间隔的数据集合以产生心脏的图像。 由于分量图像全部在心脏的低运动相位中获得,因此所得到的整体图像特别尖锐。
    • 2. 发明授权
    • Method for displacing a superimposed measuring surface on a sensor surface of an x-ray detector and x-ray system for implementing said method
    • 用于移动X射线检测器和x射线系统的传感器表面上的叠加的测量表面的方法,用于实现所述方法
    • US07500782B2
    • 2009-03-10
    • US11881717
    • 2007-07-27
    • Klaus Klingenbeck-RegnJudith Regn
    • Klaus Klingenbeck-RegnJudith Regn
    • H05G1/02A61B6/00
    • A61B6/587A61B6/4233A61B6/4429A61B6/4458G03B42/026
    • To avoid manual adjustments, the invention relates to a method for displacing a superimposed measuring surface on a sensor surface of an x-ray detector in an x-ray system, with an x-ray source and the x-ray detector forming a recording system and being at a fixed distance from one another, with the recording system being moveable in a three-dimensional manner relative to an object to be examined, comprising: the superimposed measuring surface is displaced on the sensor surface of the x-ray detector by a first distance in a first direction; and the recording system is moved by a second distance in parallel with the first distance in a second direction, which is opposite to the first direction, whereby after implementing one of the two steps, the other step is respectively automatically implemented such that a previously superimposed examination area of the object remains superimposed on the displaced measuring surface.
    • 为了避免手动调整,本发明涉及一种用于在x射线系统中移动X射线检测器的传感器表面上的叠加的测量表面的方法,其中x射线源和x射线检测器形成记录系统 并且彼此处于固定的距离,其中记录系统可相对于被检查物体以三维方式移动,包括:叠加的测量表面在x射线检测器的传感器表面上移位 第一方向的第一距离; 并且记录系统在与第一方向相反的第二方向上与第一距离平行移动第二距离,由此在实现两个步骤中的一个之后,另一步骤分别自动实现,使得先前叠加 物体的检查区域保持叠加在位移的测量表面上。
    • 4. 发明申请
    • Method for displacing a superimposed measuring surface on a sensor surface of an x-ray detector and x-ray system for implementing said method
    • 用于移动X射线检测器和x射线系统的传感器表面上的叠加的测量表面的方法,用于实现所述方法
    • US20080031421A1
    • 2008-02-07
    • US11881717
    • 2007-07-27
    • Klaus Klingenbeck-RegnJudith Regn
    • Klaus Klingenbeck-RegnJudith Regn
    • H05G1/02
    • A61B6/587A61B6/4233A61B6/4429A61B6/4458G03B42/026
    • To avoid manual adjustments, the invention relates to a method for displacing a superimposed measuring surface on a sensor surface of an x-ray detector in an x-ray system, with an x-ray source and the x-ray detector forming a recording system and being at a fixed distance from one another, with the recording system being moveable in a three-dimensional manner relative to an object to be examined, comprising: the superimposed measuring surface is displaced on the sensor surface of the x-ray detector by a first distance in a first direction; and the recording system is moved by a second distance in parallel with the first distance in a second direction, which is opposite to the first direction, whereby after implementing one of the two steps, the other step is respectively automatically implemented such that a previously superimposed examination area of the object remains superimposed on the displaced measuring surface.
    • 为了避免手动调整,本发明涉及一种用于在x射线系统中移动X射线检测器的传感器表面上的叠加的测量表面的方法,其中x射线源和x射线检测器形成记录系统 并且彼此处于固定的距离,其中记录系统可相对于被检查物体以三维方式移动,包括:叠加的测量表面在x射线检测器的传感器表面上移位 第一方向的第一距离; 并且记录系统在与第一方向相反的第二方向上与第一距离平行移动第二距离,由此在实现两个步骤中的一个之后,另一步骤分别自动实现,使得先前叠加 物体的检查区域保持叠加在位移的测量表面上。
    • 5. 发明授权
    • Method and device for separate three-dimensional presentation of arteries and veins in a part of body
    • 用于在身体的一部分中单独的立体呈现动脉和静脉的方法和装置
    • US08676297B2
    • 2014-03-18
    • US11724657
    • 2007-03-15
    • Goetz BenndorfKlaus Klingenbeck-RegnMichael Zellerhoff
    • Goetz BenndorfKlaus Klingenbeck-RegnMichael Zellerhoff
    • A61B5/05
    • A61B6/481A61B6/504
    • The invention is directed to a method and a device for separate three-dimensional presentation of arteries and/or veins of a vessel system in a part of the body of a vertebrate by a rotation computer tomography. A masking run of the tomograph is undertaken without contrast media around the part of the body. Then two filling runs with contrast media are executed, with the venous phase of vessel contrasting during the first filling run occurring during the arterial phase of vessel contrasting of the second filling run and vice-versa. The data from the first and second filling run is combined into data sets from the arterial or the venous phases of the vessel contrasting of the filling runs. The data of the masking run is subtracted from the combined data sets to obtain final data sets for a three-dimensional presentation of the arterial or the venous vessel system.
    • 本发明涉及一种用于通过旋转计算机断层摄影在脊椎动物身体的一部分中分离地显示血管系统的血管和/或静脉的方法和装置。 在身体部分周围没有造影剂进行断层摄影术的掩蔽运行。 然后执行用造影剂的两次填充运行,在第一次填充运行期间血管对比的静脉期发生在第二次灌注运行的血管对比的动脉期期间,反之亦然。 来自第一次和第二次灌注运行的数据被组合成来自血管的动脉或静脉期的数据集,与填充运行相反。 从组合的数据集中减去掩蔽运行的数据,以获得用于动脉或静脉血管系统的三维呈现的最终数据集。
    • 6. 发明授权
    • Method for recording X-ray images by means of a robotically controlled C-arm system and recording device for recording X-ray images
    • 通过机器人控制的C臂系统记录X射线图像的方法和用于记录X射线图像的记录装置
    • US07837385B2
    • 2010-11-23
    • US11890402
    • 2007-08-06
    • Klaus Klingenbeck-Regn
    • Klaus Klingenbeck-Regn
    • H05G1/02
    • G03B42/02A61B6/102A61B6/4441A61B6/4458A61B6/466
    • The present invention relates to a method and a device for recording X-ray images by means of a robotically controlled C-arm system which includes an image recording system (9, 10) that can be rotated in a recording plane around a turning center (17) by means of a C-arm (7) and with which, through rotating of the C-arm (7), a plurality of radioscopic images of a region (14) of interest in an object (13) positioned on an object positioning facility (15) are recorded at different rotation angles, from which images one or more cross-sectional images or a three-dimensional image of a region (14) in the object can be reconstructed. With the method, the C-arm (7) is compliantly repositioned in a collision-free manner in synchronism with the rotation such that the region (14) of interest in an object will, at least at each rotation angle at which image recording takes place, be located within a cone beam (16) of an X-ray bundle of the image recording system (9, 10). The method and associated robotically controlled recording device thus enable the three-dimensional image reconstruction also of regions located at the edge of the object's longitudinal center line.
    • 本发明涉及一种通过机器人控制的C臂系统来记录X射线图像的方法和装置,该系统包括可在围绕转动中心的记录平面中旋转的图像记录系统(9,10) 通过C臂(7)的旋转,通过C臂(7)的旋转,位于物体(13)上的感兴趣区域(14)的多个放射线图像位于物体 定位设备(15)以不同的旋转角度被记录,从中可以重建图像中的一个或多个横截面图像或区域(14)的三维图像。 利用该方法,C臂(7)以与旋转同步的无碰撞方式顺从地重新定位,使得物体中感兴趣的区域(14)将至少在图像记录所需的每个旋转角度 位置,位于图像记录系统(9,10)的X射线束的锥形束(16)内。 因此,该方法和相关联的机器人控制的记录装置也能够对位于物体的纵向中心线的边缘处的区域进行三维图像重建。
    • 8. 发明授权
    • Medical diagnostic system and method for capturing medical image information
    • 用于捕获医学图像信息的医疗诊断系统和方法
    • US07809106B2
    • 2010-10-05
    • US11888206
    • 2007-07-31
    • Klaus Klingenbeck-Regn
    • Klaus Klingenbeck-Regn
    • G01N23/04
    • G01T1/1615A61B6/037A61B6/4441
    • The invention relates to a medical diagnostic system having two C-arms which are adjustable with the aid of two drive means and serve as retaining devices for one medical measuring system in each case. At least one evaluation unit and at least one display element are provided for each medical measuring system. The first measuring system is an X-ray measuring system comprising an X-ray emitter and an X-ray detector and has a high spatial resolution. The second measuring system is a nuclear medicine measuring system for visualizing tissue functions. Accurate and rapid medical diagnoses and interventions are possible based on image information generated by both measuring systems.
    • 本发明涉及一种具有两个C臂的医疗诊断系统,其可借助于两个驱动装置来调节,并且用作在每种情况下用于一个医疗测量系统的保持装置。 为每个医疗测量系统提供至少一个评估单元和至少一个显示元件。 第一测量系统是包括X射线发射器和X射线检测器并具有高空间分辨率的X射线测量系统。 第二测量系统是用于可视化组织功能的核医学测量系统。 基于由两个测量系统生成的图像信息,可以准确快速地进行医学诊断和干预。
    • 9. 发明授权
    • X-ray diagnostics method and device
    • X射线诊断方法和装置
    • US07660390B2
    • 2010-02-09
    • US11165100
    • 2005-06-23
    • Philipp BernhardtKlaus Klingenbeck-RegnMichael Maschke
    • Philipp BernhardtKlaus Klingenbeck-RegnMichael Maschke
    • H05G1/64
    • A61B6/504A61B6/4291A61B6/481A61B6/542G01N23/04
    • An x-ray diagnostics method is specified, in particular for use in angiography and cardiology, by means of which a particularly good image quality can be achieved in an easily manageable manner for the patient (P) and the medical personnel, at the same time as a comparatively low radiation exposure. Furthermore, a specific x-ray device (1) for implementing the method comprising an x-ray emitter (2), an x-ray detector (3) and a control unit (10) is specified to control the x-ray emitter (2). In this way the control unit (10) is allocated an operating element (15), by means of which a control parameter (S) characterizing the image quality, the detector input dose or the contrast noise ratio can be continuously varied, as a function of which a number of recording parameters (U,I,t,F) are set by means of the control device (10).
    • 具体说明了用于血管造影和心脏病学的x射线诊断方法,通过该X射线诊断方法可以以易于管理的方式为病人(P)和医务人员实现特别好的图像质量,同时 作为相对较低的辐射照射。 此外,指定用于实现包括x射线发射器(2),x射线检测器(3)和控制单元(10)的方法的特定X射线装置(1),以控制X射线发射器 2)。 以这种方式,控制单元(10)被分配有操作元件(15),通过该操作元件可以连续地改变表征图像质量,检测器输入剂量或对比度噪声比的控制参数(S)作为功能 其中通过控制装置(10)设定多个记录参数(U,I,t,F)。