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    • 91. 发明申请
    • TESTING COMMUNICATION DURING IMPLANTATION
    • 植入过程中的测试通讯
    • US20110160557A1
    • 2011-06-30
    • US12732403
    • 2010-03-26
    • Can CinbisH. Toby Markowitz
    • Can CinbisH. Toby Markowitz
    • A61B5/04
    • A61B5/0028A61B5/0031A61B2034/2053A61B2560/0271A61N1/37205A61N1/37217A61N1/37241A61N1/3756
    • A system and method are described for testing communication through a patient during implantation using telemetry coupling electrodes on a delivery catheter. In one example, at least two telemetry coupling electrodes may be placed on or within a delivery catheter to test conductive communication with external body electrodes during implantation. In some instances, the telemetry coupling electrodes of the delivery catheter may approximate the spacing of telemetry electrodes on an IMD. In this manner, testing conductively coupled communication with telemetry coupling electrodes of the catheter may be used to mimic the telemetry electrodes on the IMD and determine a target position and/or orientation of an electrode or electrodes of the IMD for successful conductive communication through the body.
    • 描述了一种用于在植入期间通过患者使用传送导管上的遥测耦合电极来测试通信的系统和方法。 在一个示例中,至少两个遥测耦合电极可以放置在输送导管上或内部,以在植入期间测试与外部身体电极的导电连通。 在一些情况下,输送导管的遥测耦合电极可以接近IMD上遥测电极的间距。 以这种方式,测试与导管的遥测耦合电极的导电耦合通信可以用于模拟IMD上的遥测电极,并且确定IMD的电极或电极的目标位置和/或取向以通过身体成功地导电连通 。
    • 92. 发明申请
    • METHOD AND APPARATUS FOR POST-SHOCK EVALUATION USING TISSUE OXYGENATION MEASUREMENTS
    • 使用组织氧化测量法进行后期评估的方法和装置
    • US20110066198A1
    • 2011-03-17
    • US12845830
    • 2010-07-29
    • Jonathan L. KuhnCan CinbisDavid A. AndersonWilliam J. Havel
    • Jonathan L. KuhnCan CinbisDavid A. AndersonWilliam J. Havel
    • A61N1/36
    • A61B5/14551A61B5/1459A61B5/6846A61B5/7285A61N1/36557A61N1/3925A61N1/3956
    • A method and device for delivering therapy that includes an electrode to sense cardiac signals and to deliver a therapy, a therapy delivery module coupled to the electrode to deliver a therapy via the electrode in response to the sensed cardiac signals, a sensor emitting light and detecting emitted light scattered by a tissue volume adjacent the optical sensor to generate a corresponding detected light intensity output signal, a control module coupled to the sensor to control light emission of the sensor in response to delivering the therapy, and a controller coupled to the therapy delivery module and the sensor, the controller configured to determine tissue oxygenation measurements in response to the output signal, determine a tissue oxygenation trend in response to the tissue oxygenation measurements, and determine whether the delivered therapy restored cardiac hemodynamic function in response to the determined tissue oxygenation trend.
    • 一种用于递送治疗的方法和装置,其包括用于感测心脏信号并递送治疗的电极,治疗递送模块,其耦合到所述电极,以响应于感测到的心脏信号经由所述电极递送治疗;发射光和检测的传感器 发射由邻近光学传感器的组织体积散射的光,以产生对应的检测到的光强度输出信号;耦合到传感器的控制模块,以响应于递送治疗来控制传感器的光发射;以及耦合到治疗传递的控制器 模块和传感器,所述控制器被配置为响应于所述输出信号确定组织氧合测量,响应于所述组织氧合测量确定组织氧合趋势,并且确定所递送的治疗是否响应于所确定的组织氧合来恢复心脏血液动力学功能 趋势。
    • 94. 发明授权
    • Method and apparatus for using an optical hemodynamic sensor to identify an unstable arrhythmia
    • 使用光学血液动力学传感器来识别不稳定心律失常的方法和装置
    • US07787947B2
    • 2010-08-31
    • US11394477
    • 2006-03-31
    • Sourav BhuniaWalter H. OlsonCan Cinbis
    • Sourav BhuniaWalter H. OlsonCan Cinbis
    • A61N1/00
    • A61B5/14542A61B5/1459A61N1/3621A61N1/36557A61N1/3956
    • A medical device identifies a hemodynamically unstable arrhythmia based upon optical hemodynamic sensor signals. The optical hemodynamic sensor includes a light source for transmitting light corresponding to first and second wavelengths through a blood perfused tissue of a patient and a light detector for generating optical signals corresponding to an intensity of the detected light at the first and second wavelengths. At a low motion period for the patient, optical signals are obtained from the optical hemodynamic sensor and are analyzed to determine a baseline motion level for the patient. Subsequent signals obtained from the optical hemodynamic sensor are compared to the baseline motion levels, with only those signals corresponding to periods where motion does not exceed the baseline level of motion being further analyzed to determine if they are consistent with a hemodynamically unstable arrhythmia.
    • 医疗设备基于光学血液动力学传感器信号识别血液动力学不稳定的心律失常。 光学血液动力学传感器包括用于通过患者的血液灌注组织透射与第一和第二波长相对应的光的光源,以及用于产生与第一和第二波长的检测光的强度对应的光信号的光检测器。 在患者的低运动周期中,从光学血液动力学传感器获得光学信号,并且被分析以确定患者的基线运动水平。 将从光学血液动力学传感器获得的后续信号与基线运动水平进行比较,只有那些对应于运动未超过基线运动水平的周期的信号进行进一步分析,以确定它们是否与血液动力学不稳定的心律失常一致。
    • 95. 发明授权
    • Implantable heart sound sensor with noise cancellation
    • 具有噪音消除的植入式心音传感器
    • US07682316B2
    • 2010-03-23
    • US11781734
    • 2007-07-23
    • David A. AndersonCan Cinbis
    • David A. AndersonCan Cinbis
    • A61B5/02
    • A61N1/36514A61B7/003A61B7/006A61B7/008A61B2562/0204A61N1/36578A61N1/3702
    • An implantable medical device system senses a first signal using a first acoustical sensor adapted to be operatively positioned in a first internal body location for sensing heart sounds in a patient. The system includes a second acoustical sensor adapted to be operatively positioned in a second internal body location for sensing sounds in the patient and generate a second signal that is less responsive to the heart sounds than the first acoustical signal. An implantable medical device including a housing and a processor enclosed in the housing receives the first signal and the second signal and generates a corrected first signal by canceling non-cardiac signals in the first signal using the second signal.
    • 植入式医疗设备系统使用适于被操作地定位在第一内部身体位置中的第一声学传感器来感测第一信号,以感测患者心脏的声音。 该系统包括适于可操作地定位在第二内部身体位置中的第二声学传感器,用于感测患者中的声音,并产生比第一声学信号对心音响应较小的第二信号。 包括壳体和封装在壳体中的处理器的可植入医疗装置接收第一信号和第二信号,并且通过使用第二信号消除第一信号中的非心脏信号来产生校正的第一信号。