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    • 1. 发明授权
    • Method and apparatus for monitoring heart rate and abnormal respiration
    • 用于监测心率和异常呼吸的方法和装置
    • US06752765B1
    • 2004-06-22
    • US09715637
    • 2000-11-17
    • Donald N. JensenLinda L. RuetzCatherine R. CondieYong Kyun ChoUlla StrobelScott Davie
    • Donald N. JensenLinda L. RuetzCatherine R. CondieYong Kyun ChoUlla StrobelScott Davie
    • A61N1365
    • A61N1/36521
    • An implantable device having enhanced capabilities for monitoring a patient's heart rate and respiration trends over extended periods of time is disclosed. The information collected by the implantable device may be stored and telemetered to an associated external device such as a device programmer for display and analysis. Heart rates are measured by measuring the time intervals between sensed depolarizations of a chamber of the patient's heart and preceding sensed depolarizations or delivered pacing pulses. Intervals may be measured in the ventricle and/or atrium of the patient's heart. According to another aspect of the invention, an implanted impedance sensor is employed to monitor minute ventilation. The heart rate and minute ventilation data is used to develop long-term trend data used for diagnostic purposes. In one embodiment of the invention, heart interval and minute ventilation measurements are taken only during defined time periods of the night and/or day when the patient is at rest. A sensor such as an activity sensor or metabolic rate sensor may be used to confirm patient inactivity.
    • 公开了一种具有增强的用于监测患者的心率和延长的时间段的呼吸趋势的能力的可植入装置。 由可植入装置收集的信息可以存储和遥测到相关联的外部设备,例如用于显示和分析的设备编程器。 通过测量感觉到的患者心脏的室的去极化和之前感测到的去极化或发出的起搏脉冲之间的时间间隔来测量心率。 间隔可以在患者心脏的心室和/或心房中测量。 根据本发明的另一方面,采用植入式阻抗传感器来监测分钟通气。 心率和分钟通气数据用于开发用于诊断目的的长期趋势数据。 在本发明的一个实施例中,心脏间隔和分钟通气测量仅在患者休息的夜晚和/或天的限定时间段期间进行。 可以使用诸如活性传感器或代谢率传感器的传感器来确认患者不活动。
    • 7. 发明授权
    • Method for providing a therapy to a patient involving modifying the therapy after detecting an onset of sleep in the patient, and implantable medical device embodying same
    • 用于在检测到患者的睡眠发作之后对涉及修改治疗的患者提供治疗的方法以及体内相同的可植入医疗装置
    • US06731984B2
    • 2004-05-04
    • US09876528
    • 2001-06-07
    • Yong Kyun ChoDonald N. JensenLuc R. Mongeon
    • Yong Kyun ChoDonald N. JensenLuc R. Mongeon
    • A61N1365
    • A61N1/36521A61N1/36542
    • An implantable medical device system is described including an implantable medical device for implantation in a patient. One embodiment of the implantable medical device includes a therapy component for providing a therapy to the patient, a minute ventilation (MV) sensing circuit producing MV values indicative of a MV of the patient at time intervals, and computational circuitry. The computational circuitry receives a number of the MV values over a period of time, calculates a statistical parameter (e.g., a mean) of the MV values, and calculates a deviation of the MV values from the statistical parameter (e.g., a standard deviation of the MV values). The computational circuitry detects an onset of sleep in the patient when the deviation of the MV values from the statistical parameter is less than a predetermined MV threshold value, and signals the therapy component to modify the therapy when the onset of sleep is detected in the patient. A method is disclosed for providing therapy to a patient, including detecting an onset of sleep in the patient, and modifying the therapy following the detecting the onset of sleep in the patient.
    • 描述了一种植入式医疗装置系统,其包括用于植入患者体内的可植入医疗装置。 可植入医疗装置的一个实施例包括用于向患者提供治疗的治疗部件,以及以计算电路产生指示患者的MV的MV值的分钟通气(MV)感测电路。 计算电路在一段时间内接收多个MV值,计算MV值的统计参数(例如,平均值),并计算MV值与统计参数的偏差(例如,标准偏差 MV值)。 当MV值与统计参数的偏差小于预定的MV阈值时,计算电路检测患者的睡眠开始,并且当在患者中检测到睡眠发作时发出信号,以修改治疗组件 。 公开了一种用于向患者提供治疗的方法,包括检测患者的睡眠发作,以及在检测到患者的睡眠发作之后修改治疗。
    • 9. 发明申请
    • INTEGRATED PATIENT CARE
    • 一体化患者护理
    • US20120108984A1
    • 2012-05-03
    • US12915992
    • 2010-10-29
    • Tommy D. BennettYong Kyun ChoRandolph M. Biallas
    • Tommy D. BennettYong Kyun ChoRandolph M. Biallas
    • G06Q50/00A61B5/021
    • G06F19/3481A61B5/0022A61B5/021A61B5/0215A61B5/0537A61B5/11A61B5/4836A61B5/4878A61B5/743A61B5/7435A61N1/37247G06F19/00G06F19/3456G06Q50/22G16H40/63G16H50/20
    • A therapy regimen, e.g., a contingent medication prescription, may be created and automatically distributed to a patient via an integrated patient care system. A clinician may create therapy instructions by at least associating patient conditions with one or more therapy regimens, e.g., medication prescriptions. In some examples, the integrated patient care system may present historical condition data to the clinician to aid the clinician with creating and/or updating the therapy instructions specific to the patient. A therapy module of the integrated patient care system may use the therapy instructions to automatically select a therapy regimen from the therapy instructions based on a patient condition detected based on a sensed physiological parameter. The physiological parameter of the patient may be sensed by an implanted or external sensor. In some examples, the therapy regimen can be presented to the patient according to a predetermined schedule or in response to the detected condition.
    • 可以创建治疗方案,例如或有药物处方,并通过综合的患者护理系统自动分配给患者。 临床医生可以通过至少将患者状况与一种或多种治疗方案(例如药物处方)相关联来产生治疗指导。 在一些示例中,综合的患者护理系统可向临床医生呈现历史状态数据,以帮助临床医生创建和/或更新患者特有的治疗指导。 综合患者护理系统的治疗模块可以使用治疗指令根据基于检测到的生理参数检测到的患者状况从治疗指令中自动选择治疗方案。 患者的生理参数可以通过植入或外部传感器来感测。 在一些实例中,治疗方案可以根据预定的时间表或响应于检测到的病症呈现给患者。