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    • 4. 发明授权
    • Cardiac resynchronization method and apparatus employing mechanical measurement of cardiac walls
    • 心脏再同步化方法和采用机械测量心脏壁的装置
    • US07904155B2
    • 2011-03-08
    • US11549676
    • 2006-10-16
    • Yinghong YuJiang DingQingsheng Zhu
    • Yinghong YuJiang DingQingsheng Zhu
    • A61N1/365
    • A61N1/36578A61N1/3627A61N1/36542A61N1/3684
    • Methods and devices are disclosed for employing mechanical measurements to synchronize contractions of ventricular wall locations. Accelerometers that may be placed within electrode leads are positioned at ventricular wall locations, such as the left ventricle free wall, right ventricle free wall, and the anterior wall/septum wall. The accelerometers produce signals in response to the motion of the ventricular wall locations. A processor may then compare the signals to determine a difference in the synchronization of the ventricular wall location contractions. The difference in synchronization can be determined in various ways such as computing a phase difference and/or amplitude difference between the accelerometer signals. One or more stimulation pulses may be provided per cardiac cycle to resynchronize the contractions as measured by the accelerometers to thereby constantly and automatically optimize the cardiac resynchronization therapy.
    • 公开了用于采用机械测量来同步心室壁位置收缩的方法和装置。 可以放置在电极引线内的加速度计定位在心室壁位置,例如左心室游离壁,右心室游离壁和前壁/隔膜壁。 加速度计响应于心室壁位置的运动产生信号。 然后,处理器可以比较信号以确定心室壁位置收缩的同步的差异。 可以以各种方式确定同步差异,例如计算加速度计信号之间的相位差和/或振幅差。 可以在每个心动周期提供一个或多个刺激脉冲,以重新同步由加速度计测量的收缩,从而不断地和自动地优化心脏再同步治疗。
    • 6. 发明申请
    • CARDIAC RESYNCHRONIZATION SYSTEM EMPLOYING MECHANICAL MEASUREMENT OF CARDIAC WALLS
    • 心脏康复系统采用机械心脏测量
    • US20070129781A1
    • 2007-06-07
    • US11549676
    • 2006-10-16
    • Yinghong YuJiang DingQingsheng Zhu
    • Yinghong YuJiang DingQingsheng Zhu
    • A61N1/365
    • A61N1/36578A61N1/3627A61N1/36542A61N1/3684
    • Methods and devices are disclosed for employing mechanical measurements to synchronize contractions of ventricular wall locations. Accelerometers that may be placed within electrode leads are positioned at ventricular wall locations, such as the left ventricle free wall, right ventricle free wall, and the anterior wall/septum wall. The accelerometers produce signals in response to the motion of the ventricular wall locations. A processor may then compare the signals to determine a difference in the synchronization of the ventricular wall location contractions. The difference in synchronization can be determined in various ways such as computing a phase difference and/or amplitude difference between the accelerometer signals. One or more stimulation pulses may be provided per cardiac cycle to resynchronize the contractions as measured by the accelerometers to thereby constantly and automatically optimize the cardiac resynchronization therapy.
    • 公开了用于采用机械测量来同步心室壁位置收缩的方法和装置。 可以放置在电极引线内的加速度计定位在心室壁位置,例如左心室游离壁,右心室游离壁和前壁/隔膜壁。 加速度计响应于心室壁位置的运动产生信号。 然后,处理器可以比较信号以确定心室壁位置收缩的同步的差异。 可以以各种方式确定同步差异,例如计算加速度计信号之间的相位差和/或振幅差。 可以在每个心动周期提供一个或多个刺激脉冲,以重新同步由加速度计测量的收缩,从而不断地和自动地优化心脏再同步治疗。
    • 8. 发明授权
    • Apparatus and method for determining responders to cardiac resynchronization therapy using implantable accelerometers
    • 用于使用可植入加速度计确定心脏再同步治疗的响应者的装置和方法
    • US06923772B2
    • 2005-08-02
    • US10236714
    • 2002-09-06
    • Yinghong YuJiang DingQingsheng Zhu
    • Yinghong YuJiang DingQingsheng Zhu
    • A61B5/11A61B5/02
    • A61B5/1107A61B5/6869A61B5/7242A61B2562/0219
    • A device for measuring a synchronicity of contraction of a heart to determine if an individual would be a responder to cardiac resynchronization therapy. The device may include a first electrode positioned at a first ventricular wall location to measure movement of the first ventricular wall location and generate a first signal, as well as a second electrode positioned at a second ventricular wall location to measure movement of the second ventricular wall location and generate a second signal. A processing module may process the first and second signals, for example, integrate the signals multiple times, and generate an output based on the processed signals. Based on this output, an individual can be labeled a responder or non-responder to cardiac resynchronization therapy. The electrodes may each include an accelerometer to measure acceleration of the heart wall.
    • 用于测量心脏收缩的同步性的装置,以确定个体是否是心脏再同步治疗的应答​​者。 该装置可以包括位于第一心室壁位置处的第一电极,以测量第一心室壁位置的运动并产生第一信号,以及定位在第二心室壁位置处的第二电极,以测量第二心室壁的运动 位置并产生第二个信号。 处理模块可以处理第一和第二信号,例如,多次对信号进行积分,并且基于处理的信号生成输出。 基于该输出,个体可以被标记为心脏再同步治疗的应答​​者或非应答者。 电极可以各自包括用于测量心脏壁的加速度的加速度计。
    • 9. 发明授权
    • Cardiac resynchronization system employing mechanical measurement of cardiac walls
    • 心脏再同步系统采用心脏壁的机械测量
    • US08792980B2
    • 2014-07-29
    • US12980417
    • 2010-12-29
    • Yinghong YuJiang DingQingsheng Zhu
    • Yinghong YuJiang DingQingsheng Zhu
    • A61N1/368A61N1/365
    • A61N1/36578A61N1/3627A61N1/36542A61N1/3684
    • Methods and devices are disclosed for employing mechanical measurements to synchronize contractions of ventricular wall locations. Accelerometers that may be placed within electrode leads are positioned at ventricular wall locations, such as the left ventricle free wall, right ventricle free wall, and the anterior wall/septum wall. The accelerometers produce signals in response to the motion of the ventricular wall locations. A processor may then compare the signals to determine a difference in the synchronization of the ventricular wall location contractions. The difference in synchronization can be determined in various ways such as computing a phase difference and/or amplitude difference between the accelerometer signals. One or more stimulation pulses may be provided per cardiac cycle to resynchronize the contractions as measured by the accelerometers to thereby constantly and automatically optimize the cardiac resynchronization therapy.
    • 公开了用于采用机械测量来同步心室壁位置收缩的方法和装置。 可以放置在电极引线内的加速度计定位在心室壁位置,例如左心室游离壁,右心室游离壁和前壁/隔膜壁。 加速度计响应于心室壁位置的运动产生信号。 然后,处理器可以比较信号以确定心室壁位置收缩的同步的差异。 可以以各种方式确定同步差异,例如计算加速度计信号之间的相位差和/或振幅差。 可以在每个心动周期提供一个或多个刺激脉冲,以重新同步由加速度计测量的收缩,从而不断地和自动地优化心脏再同步治疗。