BODY-WORN SENSOR FEATURING A LOW-POWER PROCESSOR AND MULTI-SENSOR ARRAY FOR MEASURING BLOOD PRESSURE
First Claim
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1. A system for measuring a patient'"'"'s blood pressure over a length of time, the system comprising a sensor assembly featuring a flexible cable configured to wrap around a portion of a patient'"'"'s arm, the flexible cable having a back surface and comprising:
- at least two electrodes, mounted on the back surface and positioned to contact the patient'"'"'s skin to generate electrical signals when the sensor assembly wraps around a portion of the patient'"'"'s arm;
an optical sensor, mounted on the back surface and comprising at least one light source and at least one photodetector, wherein the at least one light source and at least one photodetector are positioned to be adjacent to the patient'"'"'s skin when the sensor assembly wraps around a portion of the patient'"'"'s arm, wherein the optical sensor is configured to generate an optical signal by detecting optical radiation emitted by the at least one light source and reflected from a blood vessel underneath the patient'"'"'s skin;
the system further comprising a controller configured to be worn on the patient'"'"'s body, and configured to connect to the sensor assembly through a connector, the controller comprising;
i) an analog-signal processing circuit comprising a first amplifier configured to receive the electrical signals from the electrodes and generate an analog electrical waveform therefrom, and a second amplifier configured to receive the optical signal from the photodetector and generate an analog optical waveform therefrom, and further comprising an analog-to-digital converter 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;
ii) a central processing circuit configured to receive the digital electrical and optical waveforms and determine a pulse transit time 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 a patient; and
, iii) a power-regulating circuit configured to manage power supplied to the analog-signal processing circuit and central processing circuit.
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Abstract
A system is described that continuously measures a patient'"'"'s blood pressure over a length of time. The system features a sensor assembly featuring a flexible cable configured to wrap around a portion of a patient'"'"'s arm. The flexible cable features a back surface that includes at least two electrodes that are positioned to contact the patient'"'"'s skin to generate electrical signals. It additionally features an optical sensor that includes at least one light source and at least one photodetector. These components form an optical sensor that is configured to generate an optical signal by detecting optical radiation emitted by the at least one light source and reflected from a blood vessel underneath the patient'"'"'s skin.
145 Citations
21 Claims
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1. A system for measuring a patient'"'"'s blood pressure over a length of time, the system comprising a sensor assembly featuring a flexible cable configured to wrap around a portion of a patient'"'"'s arm, the flexible cable having a back surface and comprising:
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at least two electrodes, mounted on the back surface and positioned to contact the patient'"'"'s skin to generate electrical signals when the sensor assembly wraps around a portion of the patient'"'"'s arm; an optical sensor, mounted on the back surface and comprising at least one light source and at least one photodetector, wherein the at least one light source and at least one photodetector are positioned to be adjacent to the patient'"'"'s skin when the sensor assembly wraps around a portion of the patient'"'"'s arm, wherein the optical sensor is configured to generate an optical signal by detecting optical radiation emitted by the at least one light source and reflected from a blood vessel underneath the patient'"'"'s skin; the system further comprising a controller configured to be worn on the patient'"'"'s body, and configured to connect to the sensor assembly through a connector, the controller comprising; i) an analog-signal processing circuit comprising a first amplifier configured to receive the electrical signals from the electrodes and generate an analog electrical waveform therefrom, and a second amplifier configured to receive the optical signal from the photodetector and generate an analog optical waveform therefrom, and further comprising an analog-to-digital converter 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; ii) a central processing circuit configured to receive the digital electrical and optical waveforms and determine a pulse transit time 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 a patient; and
, iii) a power-regulating circuit configured to manage power supplied to the analog-signal processing circuit and central processing circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for measuring a patient'"'"'s blood pressure over a length of time, the system comprising a sensor assembly featuring a flexible cable configured to wrap around a portion of a patient'"'"'s arm, the flexible cable having a flat, rectangular surface and comprising:
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at least two electrodes, mounted on the flat rectangular surface and positioned to contact the patient'"'"'s skin to generate electrical signals when the sensor assembly wraps around a portion of the patient'"'"'s arm; an optical sensor, mounted on the flat rectangular surface and comprising at least one light source and at least one photodetector, wherein the at least one light source and at least one photodetector are positioned to be adjacent to the patient'"'"'s skin when the sensor assembly wraps around a portion of the patient'"'"'s arm, wherein the optical sensor is configured to generate an optical signal by detecting optical radiation emitted by the at least one light source and reflected from a blood vessel underneath the patient'"'"'s skin; the system further comprising a controller configured to be worn on the patient'"'"'s body, and configured to connect to the sensor assembly through a connector, the controller comprising; i) an analog-signal processing circuit comprising a first amplifier configured to receive the electrical signals from the electrodes and generate an analog electrical waveform therefrom, and a second amplifier configured to receive the optical signal from the photodetector and generate an analog optical waveform therefrom, and further comprising an analog-to-digital converter 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; ii) a central processing circuit configured to receive the digital electrical and optical waveforms and determine a pulse transit time 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 a patient; and
, iii) a power-regulating circuit configured to manage power supplied to the analog-signal processing circuit and central processing circuit. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
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20. A system for measuring a patient'"'"'s blood pressure over a length of time, the system comprising a sensor assembly featuring a flexible cable configured to wrap around a portion of a patient'"'"'s arm, the flexible cable having a flat, rectangular surface and comprising:
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at least two electrodes, mounted on the flat rectangular surface and positioned to contact the patient'"'"'s skin to generate electrical signals when the sensor assembly wraps around a portion of the patient'"'"'s arm; an optical sensor, mounted on the flat rectangular surface and comprising at least one light source and at least one photodetector, wherein the at least one light source and at least one photodetector are positioned to be adjacent to the patient'"'"'s skin when the sensor assembly wraps around a portion of the patient'"'"'s arm, wherein the optical sensor is configured to generate an optical signal by detecting optical radiation emitted by the at least one light source and reflected from a blood vessel underneath the patient'"'"'s skin. - View Dependent Claims (21)
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Specification
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Current AssigneeSotera Wireless Incorporated
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Original AssigneeSotera Wireless Incorporated
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InventorsBanet, Matthew J., Zhou, Zhou, Hunt, Kenneth Robert, Visser, Henk II
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Application NumberUS13/346,408Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current600/480CPC Class CodesA61B 2560/0209 adapted for power savingA61B 2562/164 the sensor is mounted in or...A61B 5/0059 using light, e.g. diagnosis...A61B 5/02007 Evaluating blood vessel con...A61B 5/021 Measuring pressure in heart...A61B 5/02125 of pulse wave propagation timeA61B 5/0245 by using sensing means gene...A61B 5/14551 for measuring blood gasesA61B 5/6824 Arm or wristA61B 5/6826 FingerA61B 5/6838 Clamps or clips
