Blood pressure monitoring system
First Claim
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1. A non-invasive blood pressure monitoring systems comprising:
- a) a transducer means including a piezoelectric element responsive to displacement of a transfer member located on a body portion adjacent a radial artery wall for detecting displacement of said radial artery wall caused by blood pressure pulses and generating an electrical displacement signal in response thereto;
b) a signal processor means for receiving said displacement signal and converting the displacement signal to an electrical analog blood pressure waveform signal;
c) computer means for extracting blood pressure parameters and physiological measurements from said waveform signal by recognizing certain patterns in the waveform of the waveform signal; and
d) display means for displaying said parameters, measurements and waveform signal, and wherein said computer means calculates a compensated dicrotic notch ratio CDR by determining the product of a dicrotic ratio DR and a filling time component FTC.
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Abstract
A blood pressure instrument and method in which analog blood pressure waveform signals are digitized and stored and used to determine blood pressure parameters to make physiological measurements based upon pattern recognition using information empirically obtained from clinical measurements. In a preferred embodiment, the analog waveform signals are obtained non-invasively using an external wrist-mounted displacement transducer.
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Citations
23 Claims
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1. A non-invasive blood pressure monitoring systems comprising:
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a) a transducer means including a piezoelectric element responsive to displacement of a transfer member located on a body portion adjacent a radial artery wall for detecting displacement of said radial artery wall caused by blood pressure pulses and generating an electrical displacement signal in response thereto; b) a signal processor means for receiving said displacement signal and converting the displacement signal to an electrical analog blood pressure waveform signal; c) computer means for extracting blood pressure parameters and physiological measurements from said waveform signal by recognizing certain patterns in the waveform of the waveform signal; and d) display means for displaying said parameters, measurements and waveform signal, and wherein said computer means calculates a compensated dicrotic notch ratio CDR by determining the product of a dicrotic ratio DR and a filling time component FTC. - View Dependent Claims (2, 3, 4, 5)
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6. wherein a, b, c, d, e, &
- k are constants empirically determined by clinical evaluation.
- View Dependent Claims (8, 10)
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7. A method of non-invasive blood pressure monitoring comprising the steps of:
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a) detecting displacement of a radial artery caused by blood pressure pulses and generating an electrical displacement signal in response thereto using a piezoelectric sensor having a displacement transfer member; b) converting the displacement signal to an analog blood pressure waveform signal; and c) extracting blood pressure parameters and physiological measurements from said waveform signal by recognizing predetermined patterns in the waveform based upon empirical data obtained from clinical studies and wherein one such extracted parameter is a compensated dicrotic notch ratio CDR which is determined by calculating the product of a dicrotic notch ratio DR and a fill time component FTC. - View Dependent Claims (9, 11, 13, 15)
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12. A blood pressure monitoring system comprising:
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a) means for external application to a living body including a piezoelectric element responsive to displacement of a transfer member contacting a body portion adjacent a radial artery wall for generating an electrical digital blood pressure waveform signal in response to displacements of said radial artery wall caused by fluctuations in instantaneous blood pressure within the body; b) computer means for extracting blood pressure parameters and physiological measurements from said digital signal and measuring the height of the waveform signal and recognizing certain patterns in the waveform of the waveform signal; and c) display means for displaying said parameters, measurements and waveform signal; and
wherein the computer means calculates a beat time ratio BTR which is the ratio of a time spent in systole to a time spent in diastole. - View Dependent Claims (14, 16, 18, 20)
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17. A method of blood pressure monitoring comprising the steps of:
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a) detecting displacement of a radial artery wall caused by blood pressure pulses and generating a displacement signal using a piezoelectric sensor having a displacement transfer member; b) generating an analog blood pressure waveform signal from said displacement signal; c) converting the analog waveform signal to a digital signal; d) extracting blood pressure parameters and physiological measurements from said digital signal by recognizing predetermined patterns in the waveform based upon empirical data obtained from clinical studies and in which an extracted blood pressure parameter is a compensated dicrotic notch ratio CDR which is determined by calculating the product of a dicrotic ratio DR and a fill time component FTC. - View Dependent Claims (19, 21, 23)
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22. A non-invasive blood pressure sensing system comprising:
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a) a transducer comprised of a piezoceramic element having a housing and attachable to the wrist of a patient by a disposable and removable adhesive, the element being responsive to displacement of a transfer member disposed adjacent a radial artery for detecting displacement of the radial artery caused by blood pressure pulses and generating an electrical displacement signal in response thereto; b) a signal processor means for receiving said displacement signal and converting the displacement signal to an electrical blood pressure waveform signal; c) computer means for receiving the blood pressure waveform signal and extracting blood pressure parameters and physiological measurements from said waveform signal by recognizing certain patterns in the waveform of the waveform signal and wherein said parameters include the following; a compensated dicrotic notch ratio CDR, a beat time ratio BTR, a beat mean ratio BMR, a RC time constant RCTC; and d) display means for displaying said parameters, measurements and waveform signal.
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Specification