Bilateral device, system and method for monitoring vital signs
First Claim
Patent Images
1. A monitoring device for measuring a patient'"'"'s vital signs, said monitoring device comprising:
- a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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;
a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component; and
iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical waveform;
an amplifier system, in electrical contact with the first and second electrodes, configured to process the first and second electrical signals to generate an electrical waveform; and
,a processor, in electrical contact with the amplifier system, configured to receive the electrical waveform or a processed version thereof, the first optical waveform or a processed version thereof, and the second optical waveform or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received electrical waveform or a processed version thereof and the received optical waveforms or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical waveform or a processed version thereof and the second optical waveform or a processed version thereof; and
ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof; and
ii) process the first time delay to determine a blood pressure value.
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Abstract
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.
147 Citations
22 Claims
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1. A monitoring device for measuring a patient'"'"'s vital signs, said monitoring device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component; and
iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical waveform;an amplifier system, in electrical contact with the first and second electrodes, configured to process the first and second electrical signals to generate an electrical waveform; and
,a processor, in electrical contact with the amplifier system, configured to receive the electrical waveform or a processed version thereof, the first optical waveform or a processed version thereof, and the second optical waveform or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received electrical waveform or a processed version thereof and the received optical waveforms or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical waveform or a processed version thereof and the second optical waveform or a processed version thereof; and
ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof; and
ii) process the first time delay to determine a blood pressure value.
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2. A monitoring device, for measuring a patient'"'"'s vital signs, said monitoring device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component and iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical waveform;an amplifier system, in electrical contact with the first and second electrodes, configured to process the first and second electrical signals to generate an electrical waveform; and
,a processor, in electrical contact with the amplifier system, configured to receive the electrical waveform or a processed version thereof, the first optical waveform or a processed version thereof, and the second optical waveform or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received electrical waveform or a processed version thereof and the received optical waveforms or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical waveform or a processed version thereof and the second optical waveform or a processed version thereof; and
ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof;
ii) determine a second time delay between the second optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof; and
iii) process at least one of the first and second time delays to determine a blood pressure value.
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3. A monitoring device, for measuring a patient'"'"'s vital signs, said monitoring device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component and iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical waveform;an amplifier system, in electrical contact with the first and second electrodes, configured to process the first and second electrical signals to generate an electrical waveform; and
,a processor, in electrical contact with the amplifier system, configured to receive the electrical waveform or a processed version thereof, the first optical waveform or a processed version thereof, and the second optical waveform or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received electrical waveform or a processed version thereof and the received optical waveforms or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical waveform or a processed version thereof and the second optical waveform or a processed version thereof; and
ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof;
ii) determine a second time delay between the second optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof; and
iii) process both the first and second time delays to determine a blood pressure value.
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4. A monitoring device, for measuring a patient'"'"'s vital signs, said monitoring device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component and iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical waveform;an amplifier system, in electrical contact with the first and second electrodes, configured to process the first and second electrical signals to generate an electrical waveform; and
,a processor, in electrical contact with the amplifier system, configured to receive the electrical waveform or a processed version thereof, the first optical waveform or a processed version thereof, and the second optical waveform or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received electrical waveform or a processed version thereof and the received optical waveforms or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical waveform or a processed version thereof and the second optical waveform or a processed version thereof; and
ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to measure blood pressure by;1) determining at least one of the following;
i) a first time delay between the first optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof; and
ii) a second time delay between the second optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof; and2) processing at least one of the first and second time delays to determine a blood pressure value.
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5. A device for measuring a patient'"'"'s vital signs, said device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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 signal;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component; and
iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical signal; and
,a processor configured to receive a processed electrical signal generated from the first and second electrical signals or a processed version thereof, the first optical signal or a processed version thereof, and the second optical signal or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received processed electrical signal and the received optical signals or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical signal or a processed version thereof and the second optical signal or a processed version thereof, and ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical signal or the processed version thereof and the processed electrical signal; and
ii) process the first time delay to determine a blood pressure value.
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6. A device for measuring a patient'"'"'s vital signs, said device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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 signal;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component; and
iii) a second photodetector configure to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical signal; and
,a processor configured to receive a processed electrical signal generated from the first and second electrical signals or a processed version thereof, the first optical signal or a processed version thereof, and the second optical signal or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received processed electrical signal and the received optical signals or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical signal or a processed version thereof and the second optical signal or a processed version thereof, and ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical signal or the processed version thereof and the processed electrical signal;
ii) determine a second time delay between the second optical signal or the processed version thereof and the processed electrical signal; and
ii) process at least one of the first and second time delays to determine a blood pressure value.
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7. A device for measuring a patient'"'"'s vital signs, said device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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 signal;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component and iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical signal; and
,a processor configured to receive a processed electrical signal generated from the first and second electrical signals or a processed version thereof, the first optical signal or a processed version thereof, and the second optical signal or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received processed electrical signal and the received optical signals or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical signal or a processed version thereof and the second optical signal or a processed version thereof, and ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical signal or the processed version thereof and the processed electrical signal;
ii) determine a second time delay between the second optical signal or the processed version thereof and the processed electrical signal; and
ii) process both the first and second time delays to determine a blood pressure value.
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8. A device for measuring a patient'"'"'s vital signs, said device comprising:
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a first sensor configured to attach to a first portion of the patient'"'"'s body, comprising;
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 signal;a second sensor configured to attach to a second portion of the patient'"'"'s body, comprising;
i) a second electrode configured to generate a second electrical signal from the second portion of the patient'"'"'s body;
ii) a second light-emitting component and iii) a second photodetector configured to receive radiation from the second portion of the patient'"'"'s body after the radiation is emitted by the second light-emitting component and in response generate a second optical signal; and
,a processor configured to receive a processed electrical signal generated from the first and second electrical signals or a processed version thereof, the first optical signal or a processed version thereof, and the second optical signal or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received processed electrical signal and the received optical signals or processed versions thereof with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical signal or a processed version thereof and the second optical signal or a processed version thereof, and ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to measure blood pressure by;1) determining at least one of the following;
i) a first time delay between the first optical signal or the processed version thereof and the processed electrical signal; and
ii) a second time delay between the second optical signal or the processed version thereof and the processed electrical signal; and2) processing at least one of the first and second time delays to determine a blood pressure value.
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9. A device for measuring a patient'"'"'s vital signs, said device comprising:
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a controller; a first sensor, electrically connected to the controller by a first electrical connection and configured to clip to a first finger located on a patient'"'"'s first hand, comprising;
i) a first electrical system configured to generate a first electrical signal from the first finger; and
ii) a first optical system comprising at least one light source and a photodetector and configured to generate a first optical signal from the first finger;a second sensor, electrically connected to the controller by a second electrical connection and configured to clip to a second finger located on a patient'"'"'s second hand, comprising;
i) a second electrical system configured to generate a second electrical signal from the second finger; and
ii) a second optical system comprising at least one light source and a photodetector and configured to generate a second optical signal from the second finger; and
,a processor configured to receive a processed electrical signal generated from the first and second electrical signals or a processed version thereof, the first optical signal or a processed version thereof, and the second optical signal or a processed version thereof, the processor comprising computer code which, when executed by the processor causes the processor to process the received electrical signal and the received optical signals with an algorithm to determine at least one of the patient'"'"'s vital signs, wherein said computer code is configured to;
i) determine an overall time delay between the first optical signal or a processed version thereof and the second optical signal or a processed version thereof, and ii) process the overall time delay to determine a blood pressure value, wherein the processor further comprises computer code which, when executed by the processor, causes the computer to;
i) determine a first time delay between the first optical waveform or the processed version thereof and the received electrical waveform or the processed version thereof; and
ii) process the first time delay to determine a blood pressure value. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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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 John, Thompson, Michael James, Zhou, Zhou, Visser, Henk II
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Primary Examiner(s)MALLARI, PATRICIA C
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Application NumberUS11/420,281Publication NumberTime in Patent Office1,902 DaysField of Search600/504US Class Current600/485CPC Class CodesA61B 5/02255 the pressure being controll...A61B 5/02427 Details of sensorA61B 5/0285 Measuring or recording phas...A61B 5/6826 FingerA61B 5/6838 Clamps or clipsA61B 5/7239 using differentiation inclu...
