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    • 3. 发明授权
    • Bilateral device, system and method for monitoring vital signs
    • 双边装置,系统和监测生命体征的方法
    • US07993275B2
    • 2011-08-09
    • US11420281
    • 2006-05-25
    • Matthew John BanetMichael James ThompsonZhou ZhouHenk Visser, II
    • Matthew John BanetMichael James ThompsonZhou ZhouHenk Visser, II
    • A61B5/02
    • A61B5/02427A61B5/02255A61B5/0285A61B5/6826A61B5/6838A61B5/7239
    • The invention features a monitoring device that measures a patient's vital signs (e.g. blood pressure). The device features a first sensor configured to attach to a first portion of the patient's body that includes: i) a first electrode configured to generate a first electrical signal from the first portion of the patient's body; ii) a first light-emitting component; and iii) a first photodetector configured to receive radiation from the first portion of the patient's body after the radiation is emitted by the first light-emitting component and in response generate a first optical waveform. The device also features a second sensor that includes essentially the same components. An amplifier system, in electrical contact with the first and second electrodes, receives first and second electrical signals from the two sensors to generate an electrical waveform. A processor, in electrical contact with the amplifier system, receives the electrical waveform, the first optical waveform, and the second optical waveform. The processor runs computer code that processes the input waveforms with an algorithm to determine at least one of the patient's vital signs.
    • 本发明的特征在于测量患者生命体征(例如血压)的监测装置。 该装置具有构造成附接到患者身体的第一部分的第一传感器,该第一传感器包括:i)构造成从患者身体的第一部分产生第一电信号的第一电极; ii)第一发光部件; 以及iii)第一光电检测器,被配置为在由所述第一发光部件发射所述辐射之后接收来自所述患者身体的所述第一部分的辐射,并且响应于产生第一光学波形。 该装置还具有包括基本相同部件的第二传感器。 与第一和第二电极电接触的放大器系统接收来自两个传感器的第一和第二电信号以产生电波形。 与放大器系统电接触的处理器接收电波形,第一光波形和第二光波形。 处理器运行计算机代码,其使用算法处理输入波形以确定至少一个患者的生命体征。
    • 4. 发明申请
    • BODY-WORN SYSTEM FOR MEASURING BLOOD PRESSURE
    • 用于测量血压的身体系统
    • US20100130875A1
    • 2010-05-27
    • US12487283
    • 2009-06-18
    • Matthew J. BANETKenneth R. HUNTHenk VISSER, II
    • Matthew J. BANETKenneth R. HUNTHenk VISSER, II
    • A61B5/021A61B5/02
    • A system for measuring a blood pressure value from a patient features a sensor configured to be worn on the patient's thumb. The sensor includes one or two light sources that emit optical radiation, and a photodetector that detects the optical radiation after it passes through a portion of a vessel (e.g. an artery or capillary) in the patient's thumb to generate a first time-dependent signal (e.g. a PPG waveform). In embodiments the sensor is made from a flexible material that wraps around a portion of the patient's thumb (e.g. the base) while leaving the thumb's tip uncovered. This configuration is less awkward than most finger-worn sensors, and allows the patient to comfortably go about their day-to-day activities (e.g. reading, eating) with little obstruction. The system also includes at least two electrodes that are configured to be worn on the patient's body and detect electrical signals that are processed by an electrical circuit to generate a second time-dependent signal (e.g. an ECG waveform).
    • 用于测量来自患者的血压值的系统具有构造成佩戴在患者拇指上的传感器。 该传感器包括一个或两个发出光辐射的光源,以及光电检测器,其在通过患者拇指中的血管(例如动脉或毛细管)的一部分之后检测光辐射以产生第一时间依赖性信号 例如PPG波形)。 在实施例中,传感器由柔性材料制成,该柔性材料围绕患者拇指(例如基部)的一部分,同时使拇指的尖端未被覆盖。 这种配置比大多数手指磨损的传感器不那么尴尬,并且允许患者舒适地进行他们的日常活动(例如阅读,吃饭),几乎没有障碍。 该系统还包括至少两个电极,其配置为佩戴在患者身上并检测由电路处理以产生第二时间相关信号(例如ECG波形)的电信号。
    • 8. 发明申请
    • MULTI-SENSOR ARRAY FOR MEASURING BLOOD PRESSURE
    • 用于测量血压的多传感器阵列
    • US20080312542A1
    • 2008-12-18
    • US12139219
    • 2008-06-13
    • Matthew J. BANETHenk VISSER, IIZhou ZHOUKenneth R. HUNT
    • Matthew J. BANETHenk VISSER, IIZhou ZHOUKenneth R. HUNT
    • A61B5/021
    • A61B5/021A61B5/02125A61B5/145
    • A sensor for monitoring a patient's blood pressure, the sensor including a housing unit with a back surface and which includes: a pair of electrodes mounted on the back surface; an optical system mounted on the back surface and including at least one light source that emits optical radiation near 570 nm and at least one photodetector; a first amplifier which generates an analog electrical waveform from the electrical signals from the electrodes; a second amplifier that generates an analog optical waveform from the optical signal from the photodetector; analog-to-digital converter circuitry configured to receive the analog electrical waveform and generate a digital electrical waveform therefrom and to receive the analog optical waveform and generate a digital optical waveform therefrom; and a processor programmed to receive the digital electrical and optical waveforms and determine a pulse transit time for the patient which is a measure of a separation in time of a first feature of the digital electrical waveform and a second feature of the digital optical waveform and to use the pulse transit time to determine a blood pressure value for the patient.
    • 一种用于监测患者血压的传感器,所述传感器包括具有后表面的壳体单元,其包括:安装在所述后表面上的一对电极; 安装在所述背面上并包括发射570nm附近的光辐射的至少一个光源和至少一个光电检测器的光学系统; 第一放大器,从电极的电信号产生模拟电波形; 第二放大器,从光电检测器的光信号产生模拟光波形; 模拟 - 数字转换器电路,被配置为接收模拟电波形并从其产生数字电波形,并接收模拟光波形并从其产生数字光波形; 以及处理器,其被编程为接收数字电波和光波形并确定患者的脉冲传播时间,该时间是数字电波形的第一特征和数字光波形的第一特征在时间上的分离的量度,以及数字光波形的第二特征, 使用脉搏传播时间来确定患者的血压值。
    • 9. 发明授权
    • Bilateral device, system and method for monitoring vital signs
    • 双边装置,系统和监测生命体征的方法
    • US07803120B2
    • 2010-09-28
    • US11420744
    • 2006-05-27
    • Matthew John BanetMichael James ThompsonZhou ZhouHenk Visser, II
    • Matthew John BanetMichael James ThompsonZhou ZhouHenk Visser, II
    • A61B5/02A61B5/04
    • A61B5/02427A61B5/02255A61B5/0285A61B5/6826A61B5/6838A61B5/7239
    • The invention features a monitoring device that measures a patient's vital signs (e.g.). The device features a first sensor configured to attach to a first portion of the patient's body that includes: i)a first electrode configured to generate a first electrical signal fron the first portion of the patient's body; ii)a first light-emitting component; and iii)a first photodetector configured to receive radiation from the first portion of the patient's body after the radiation is emitted by the first light-emiting component and in response generate a first optical waveform. The device also features a second sensor that includes essentially the same components. An amplifier system, in electrical contact with the first and second electrodes, receives first and second electrical signal from the two sensors to generate an electrical waveform. A processor, in electrical contact with the amplifier system, receives the electrical waveform, the first optical waveform, and the second optical waveform. The processor runs computer code that processes the input waveforms with an algorithm to determine at least one of the patient's vital signs.
    • 本发明的特征在于测量患者的生命体征(例如)的监测装置。 该装置具有构造成附接到患者身体的第一部分的第一传感器,其包括:i)被配置为在患者身体的第一部分产生第一电信号的第一电极; ii)第一发光部件; 以及iii)第一光电检测器,被配置为在所述第一发光部件发射所述辐射之后接收来自所述患者身体的所述第一部分的辐射,并且响应于产生第一光学波形。 该装置还具有包括基本相同部件的第二传感器。 与第一和第二电极电接触的放大器系统接收来自两个传感器的第一和第二电信号以产生电波形。 与放大器系统电接触的处理器接收电波形,第一光波形和第二光波形。 处理器运行计算机代码,其使用算法处理输入波形以确定至少一个患者的生命体征。