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    • 1. 发明申请
    • Method and system for automatic anti-tachycardia pacing
    • 自动抗心动过速起搏方法与系统
    • US20050070967A1
    • 2005-03-31
    • US10914495
    • 2004-08-09
    • Qingsheng ZhuStephen HahnSteven Girouard
    • Qingsheng ZhuStephen HahnSteven Girouard
    • A61N1/362A61N1/37
    • A61N1/3622A61N1/3712
    • A method and system for delivering anti-tachycardia pacing is disclosed. A cardiac rhythm management device, such as an implantable pacemaker having anti-tachycardia pacing capability, delivers anti-tachycardia pacing therapy in accordance with an anti-tachycardia pacing protocol upon detection of a terminable arrhythmia. The anti-tachycardia pacing is delivered as a burst of one or more pacing pulses at a specified coupling interval after a sensed ventricular polarization. By sensing if an evoked potential occurs, the device can determine whether or not the anti-tachycardia pacing burst has captured the ventricle and can adjust the coupling interval and/or other parameters accordingly.
    • 公开了用于递送抗心动过速起搏的方法和系统。 具有抗心动过速起搏能力的心脏节律管理装置,例如具有抗心动过速起搏能力的可植入起搏器,在检测到可终止的心律失常时,根据抗心动过速起搏方案提供抗心动过速起搏治疗。 抗心动过速起搏在感测到的心室极化之后以指定的耦合间隔作为一个或多个起搏脉冲的脉冲串发送。 通过感测是否发生诱发电位,该装置可以确定抗心动过速起搏脉冲是否已经捕获到心室,并且可以相应地调整耦合间隔和/或其他参数。
    • 2. 发明申请
    • SENSING WITH COMPENSATION FOR NEURAL STIMULATOR
    • 感觉神经刺激器补偿
    • US20080021507A1
    • 2008-01-24
    • US11621194
    • 2007-01-09
    • Imad LibbusQingsheng ZhuSteven Girouard
    • Imad LibbusQingsheng ZhuSteven Girouard
    • A61N1/365
    • A61N1/36117A61N1/36135A61N1/36564
    • An aspect relates to an implantable medical system. An embodiment of the system comprises a baroreflex stimulator, a cardiac event detector, and communication circuitry. The stimulator includes a pulse generator to apply baroreflex stimulation therapy. The detector includes a sensor to detect electrical signals indicative of cardiac events, and a controller connected to the sensor to determine an occurrence of a cardiac event from the electrical signals using an event detection routine. The communication circuitry communicates between the baroreflex stimulator and the cardiac event detector to account for applied baroreflex stimulation therapy and enable the cardiac event detector to discriminate the electrical signals indicative of the cardiac event from the applied baroreflex stimulation therapy.
    • 一个方面涉及可植入医疗系统。 系统的一个实施例包括压力反射刺激器,心脏事件检测器和通信电路。 刺激器包括脉冲发生器以应用压力反射刺激疗法。 检测器包括用于检测指示心脏事件的电信号的传感器,以及连接到传感器的控制器,以使用事件检测程序从电信号确定心脏事件的发生。 通信电路在压力反射刺激器和心脏事件检测器之间进行通信,以解决所施加的压力反射刺激治疗,并且使得心脏事件检测器能够将指示心脏事件的电信号与施加的压力反射刺激疗法区分开。
    • 6. 发明申请
    • Sensing with compensation for neural stimulator
    • 感应神经刺激器补偿
    • US20050149133A1
    • 2005-07-07
    • US10746847
    • 2003-12-24
    • Imad LibbusQingsheng ZhuSteven Girouard
    • Imad LibbusQingsheng ZhuSteven Girouard
    • A61N1/36A61N1/365A61N1/362
    • A61N1/36117A61N1/36135A61N1/36564
    • An aspect of the present subject matter relates to an implantable medical system. An embodiment of the system comprises a baroreflex stimulator, a cardiac event detector, and communication circuitry. The stimulator includes a pulse generator to apply baroreflex stimulation therapy. The detector includes a sensor to detect electrical signals indicative of cardiac events, and a controller connected to the sensor to determine an occurrence of a cardiac event from the electrical signals using an event detection routine. The communication circuitry communicates between the baroreflex stimulator and the cardiac event detector to account for applied baroreflex stimulation therapy and enable the cardiac event detector to discriminate the electrical signals indicative of the cardiac event from the applied baroreflex stimulation therapy. Other aspects are provided herein.
    • 本主题的一个方面涉及可植入医疗系统。 系统的一个实施例包括压力反射刺激器,心脏事件检测器和通信电路。 刺激器包括脉冲发生器以应用压力反射刺激疗法。 检测器包括用于检测指示心脏事件的电信号的传感器,以及连接到传感器的控制器,以使用事件检测程序从电信号确定心脏事件的发生。 通信电路在压力反射刺激器和心脏事件检测器之间进行通信,以解决所施加的压力反射刺激治疗,并且使得心脏事件检测器能够将指示心脏事件的电信号与施加的压力反射刺激疗法区分开。 本文提供了其他方面。
    • 7. 发明申请
    • HIS BUNDLE MAPPING, PACING, AND INJECTION LEAD
    • 他的包装映射,打印和注入引导
    • US20070233216A1
    • 2007-10-04
    • US11760294
    • 2007-06-08
    • Lili LiuRandy WestlundSteven Girouard
    • Lili LiuRandy WestlundSteven Girouard
    • A61N1/05
    • A61N1/0568
    • A cardiac rhythm management system includes a lead assembly for intracardiac mapping, pacing, and drug delivery. The lead assembly includes an implantable endocardial lead having a proximal end for connection to an implantable cardiac rhythm management device and a distal end for disposal in an intracardiac region. The lead includes a pacing-sensing electrode and a drug delivery device, both located at or near the distal end. A lumen is within and extends throughout the lead, with an opening at or near the proximal end and another opening at or near the distal end. The lumen provides for access to the intracardiac region by a steerable stylet and a hollow needle, one at a time. The steerable stylet allows for electrophysiological mapping of the intracardiac region. The hollow needle allows for delivery of chemical, biochemical, and/or biological substance to the intracardiac region.
    • 心律管理系统包括用于心内测绘,起搏和药物递送的导联组件。 引线组件包括可植入心内膜引线,其具有用于连接到可植入心律管理装置的近端和用于在心内区域中处置的远端。 引线包括起搏感测电极和药物递送装置,两者都位于远端或靠近远端。 管腔在整个引线内部并且贯穿整个引线,在近端处或近端处的开口以及在远端处或附近的另一个开口。 管腔通过可导向的管心针和中空针头一次一个地进入心脏内区域。 可导向的管心针允许心内区域的电生理作图。 中空针允许将化学,生物化学和/或生物物质递送至心内区域。
    • 10. 发明申请
    • Method and apparatus for passive cardiac stimulation
    • 被动心脏刺激的方法和装置
    • US20060178719A1
    • 2006-08-10
    • US11391604
    • 2006-03-28
    • Raymond IdekerSteven Girouard
    • Raymond IdekerSteven Girouard
    • A61N1/05
    • A61N1/056A61N1/36114
    • A passive conductor assembly for use with an implanted stimulating device having an intracavitarily or transvenously disposed electrode is disclosed. The passive conductor assembly used in combination with the implanted stimulus generator having an intracavitarily or intravenously disposed electrode includes at least one conductive element having a first end and a second end, and/or other contacting sites for contacting a portion of a heart of a subject to be stimulated. The passive conductor is disposed in proximity to the intracavitarily or transvenous electrode which is connected to the implanted stimulus generator such as a pacemaker or defibrillator. Upon discharge of an electrical stimulus or waveform from the implanted stimulus generator, the stimulus is conducted through the myocardial tissue to the conductor assembly where it is passively conducted to a region of the heart in contact with an end or other contacting sites of the conductive element of the passive conductor assembly which have been selected for cardiac stimulation. The passive conductor assembly can include electrical components disposed in electrical communication therewith which provide for the manipulation and/or modification of the electrical stimulus or waveform generated by the implanted stimulus generator which can be designed, for example, to selectively stimulate only neural tissue and not cardiac tissue or vice versa through the same passive conductor assembly.
    • 公开了一种与植入的刺激装置一起使用的被动导体组件,该植入式刺激装置具有静脉内或经转移设置的电极。 与植入的刺激发生器组合使用的被动导体组件具有静脉内或静脉内设置的电极包括至少一个具有第一端和第二端的导电元件,和/或用于接触受试者心脏的一部分的其它接触部位 被刺激。 被动导体设置在与植入的刺激发生器(例如起搏器或除颤器)连接的静脉内或经静脉电极附近。 在从植入的刺激发生器排出电刺激或波形时,将刺激通过心肌组织传导到导体组件,其中被动地传导到与导电元件的端部或其它接触部位接触的心脏区域 被选择用于心脏刺激的被动导体组件。 无源导体组件可以包括与其通信的电气部件,其提供用于由植入的刺激产生器产生的电刺激或波形的操作和/或修改,所述刺激或波形可被设计为例如仅选择性地仅刺激神经组织 心脏组织,反之亦然。