Body-worn vital sign monitor
First Claim
1. A system for measuring a blood pressure value from a patient, comprising:
- (a) a first sensor configured to generate a first time-dependent waveform indicative of one or more contractile properties of the patient'"'"'s heart;
(b) a second sensor configured to generate a second time-dependent waveform indicative of one or more contractile properties of the patient'"'"'s heart;
(c) a third sensor configured to generate a third time-dependent waveform indicative of pressure applied to a patient'"'"'s arm; and
(d) a processing component configured to be worn on the patient'"'"'s body and comprising a microprocessor and a serial transceiver, the processing component configured to;
(i) communicate with a microprocessor and serial transceiver comprised by the first sensor to receive a digitized version of the first time-dependent waveform;
(ii) communicate with a microprocessor and serial transceiver comprised by the third sensor to receive a digitized version of the third time-dependent waveform;
(iii) calculate a pulse transit time calculated using a time difference between time-dependent features in digitized versions of the first and second time-dependent waveforms;
(iv) calculate a calibration from at least one pulse transit time and a pressure value determined from a digitized version of the third time-dependent waveform; and
(v) calculate the blood pressure value from the pulse transit time and the calibration,wherein the processing component communicates with the first sensor and the third sensor to transmit a timing synchronizing packet that is received and used by the first and third sensors to time-synchronize the digitized version of the first time-dependent waveform and the digitized version of the third time-dependent waveform for processing by the processing component such that there is a maximum 40-microsecond timing error in the synchrony between the digitized version of the first time-dependent waveform and the digitized version of the third time-dependent waveform.
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Accused Products
Abstract
The invention provides a body-worn monitor featuring a processing system that receives a digital data stream from an ECG system. A cable houses the ECG system at one terminal end, and plugs into the processing system, which is worn on the patient'"'"'s wrist like a conventional wristwatch. The ECG system features: i) a connecting portion connected to multiple electrodes worn by the patient; ii) a differential amplifier that receives electrical signals from each electrode and process them to generate an analog ECG waveform; iii) an analog-to-digital converter that converts the analog ECG waveform into a digital ECG waveform; and iv) a transceiver that transmits a digital data stream representing the digital ECG waveform (or information calculated from the waveform) through the cable and to the processing system. Different ECG systems, typically featuring three, five, or twelve electrodes, can be interchanged with one another.
13 Citations
21 Claims
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1. A system for measuring a blood pressure value from a patient, comprising:
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(a) a first sensor configured to generate a first time-dependent waveform indicative of one or more contractile properties of the patient'"'"'s heart; (b) a second sensor configured to generate a second time-dependent waveform indicative of one or more contractile properties of the patient'"'"'s heart; (c) a third sensor configured to generate a third time-dependent waveform indicative of pressure applied to a patient'"'"'s arm; and (d) a processing component configured to be worn on the patient'"'"'s body and comprising a microprocessor and a serial transceiver, the processing component configured to;
(i) communicate with a microprocessor and serial transceiver comprised by the first sensor to receive a digitized version of the first time-dependent waveform;
(ii) communicate with a microprocessor and serial transceiver comprised by the third sensor to receive a digitized version of the third time-dependent waveform;
(iii) calculate a pulse transit time calculated using a time difference between time-dependent features in digitized versions of the first and second time-dependent waveforms;
(iv) calculate a calibration from at least one pulse transit time and a pressure value determined from a digitized version of the third time-dependent waveform; and
(v) calculate the blood pressure value from the pulse transit time and the calibration,wherein the processing component communicates with the first sensor and the third sensor to transmit a timing synchronizing packet that is received and used by the first and third sensors to time-synchronize the digitized version of the first time-dependent waveform and the digitized version of the third time-dependent waveform for processing by the processing component such that there is a maximum 40-microsecond timing error in the synchrony between the digitized version of the first time-dependent waveform and the digitized version of the third time-dependent waveform. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. A method for calculating blood pressure from a patient, comprising the following steps:
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(a) generating a first digital waveform indicating an electrocardiogram (ECG) signal with a first sensor; (b) generating a second digital waveform indicating a pressure signal with a second sensor; (c) generating an analog waveform indicating an optical signal with a third sensor; (d) synchronizing the first digital waveform, the second digital waveform, and a digitized version of the analog waveform using a processing component, wherein the processing component communicates with the first sensor and the second sensor to transmit a timing synchronizing packet that is received and used by the first and second sensors to time-synchronize the first digital waveform and the second digital waveform for processing by the processing component such that there is a maximum 40-microsecond timing error in the synchrony between the first digital waveform and the second digital waveform; (e) determining a pulse transit time from the first digital waveform and a digitized version of the analog waveform following using the processing component (d); (f) determining a calibration from the first digital waveform, the second digital waveform, and a digitized version of the analog waveform following (d) using the processing component; and (g) determining a blood pressure value from the calibration and a pulse transit time using the processing component.
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Specification