Non-invasive blood pressure measurement system
First Claim
1. A method of monitoring blood pressure of a patient, the method comprising:
- receiving a physiological electrical signal from an electrical sensor coupled with a patient, the physiological electrical signal configured to reflect electrical activity of the patient'"'"'s heart;
receiving a plethysmograph signal from an optical sensor coupled with a patient;
receiving a cardiac ejection signal from a first piezoelectric acoustic sensor coupled proximate the patient'"'"'s heart, the cardiac ejection signal reflecting a cardiac ejection event associated with ejection of blood from the patient'"'"'s heart;
calculating a centroid of a first feature in the cardiac ejection signal, the centroid corresponding to a first heart sound (S1) from the patient'"'"'s heart;
receiving an arterial pulse signal from a second piezoelectric acoustic sensor coupled with a limb of the patient, said second piezoelectric acoustic sensor at a first distance away from the heart of the patient;
receiving a carotid pulse signal from a third piezoelectric acoustic sensor coupled near a carotid artery of the patient, said third piezoelectric acoustic sensor at a second distance away from the heart of the patient;
estimating, using one or more hardware processors, a pre-ejection period based on the physiological electrical signal and the cardiac ejection signal from the first piezoelectric acoustic sensor;
estimating uncompensated pulse wave transit time (PWTT) from the plethysmograph signal and the physiological electrical signal;
determining a first arterial PWTT that compensates for the estimated pre-ejection period of a cardiac cycle associated with the patient'"'"'s heart from the uncompensated PWTT; and
determining a second arterial PWTT based at least partly on the cardiac ejection signal from the centroid of the first feature in the first acoustic sensor and the arterial pulse signal from the second piezoelectric acoustic sensor;
determining a third arterial PWTT based at least partly on the cardiac ejection signal from the centroid of the first feature in the first piezoelectric acoustic sensor and the carotid pulse signal from the third piezoelectric acoustic sensor;
comparing the first arterial PWTT, the second arterial PWTT, and the third arterial PWTT;
determining a final arterial PWTT based on said comparison; and
triggering an occlusive blood pressure cuff to obtain a blood pressure measurement from the patient responsive to a change in the final arterial PWTT thereby reducing instances of triggering of said occlusive blood pressure cuff for blood pressure measurement.
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Abstract
A system for non-invasively determining an indication of an individual'"'"'s blood pressure is described. In certain embodiments, the system calculates pulse wave transit time using two acoustic sensors. The system can include a first acoustic sensor configured to monitor heart sounds of the patient corresponding to ventricular systole and diastole and a second acoustic sensor configured to monitor arterial pulse sounds at an arterial location remote from the heart. The system can advantageously calculate a arterial pulse wave transit time (PWTT) that does not include the pre-ejection period time delay. In certain embodiments, the system further includes a processor that calculates the arterial PWTT obtained from the acoustic sensors. The system can use this arterial PWTT to determine whether to trigger an occlusive cuff measurement.
1049 Citations
2 Claims
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1. A method of monitoring blood pressure of a patient, the method comprising:
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receiving a physiological electrical signal from an electrical sensor coupled with a patient, the physiological electrical signal configured to reflect electrical activity of the patient'"'"'s heart; receiving a plethysmograph signal from an optical sensor coupled with a patient; receiving a cardiac ejection signal from a first piezoelectric acoustic sensor coupled proximate the patient'"'"'s heart, the cardiac ejection signal reflecting a cardiac ejection event associated with ejection of blood from the patient'"'"'s heart; calculating a centroid of a first feature in the cardiac ejection signal, the centroid corresponding to a first heart sound (S1) from the patient'"'"'s heart; receiving an arterial pulse signal from a second piezoelectric acoustic sensor coupled with a limb of the patient, said second piezoelectric acoustic sensor at a first distance away from the heart of the patient; receiving a carotid pulse signal from a third piezoelectric acoustic sensor coupled near a carotid artery of the patient, said third piezoelectric acoustic sensor at a second distance away from the heart of the patient; estimating, using one or more hardware processors, a pre-ejection period based on the physiological electrical signal and the cardiac ejection signal from the first piezoelectric acoustic sensor; estimating uncompensated pulse wave transit time (PWTT) from the plethysmograph signal and the physiological electrical signal; determining a first arterial PWTT that compensates for the estimated pre-ejection period of a cardiac cycle associated with the patient'"'"'s heart from the uncompensated PWTT; and determining a second arterial PWTT based at least partly on the cardiac ejection signal from the centroid of the first feature in the first acoustic sensor and the arterial pulse signal from the second piezoelectric acoustic sensor; determining a third arterial PWTT based at least partly on the cardiac ejection signal from the centroid of the first feature in the first piezoelectric acoustic sensor and the carotid pulse signal from the third piezoelectric acoustic sensor; comparing the first arterial PWTT, the second arterial PWTT, and the third arterial PWTT; determining a final arterial PWTT based on said comparison; and triggering an occlusive blood pressure cuff to obtain a blood pressure measurement from the patient responsive to a change in the final arterial PWTT thereby reducing instances of triggering of said occlusive blood pressure cuff for blood pressure measurement. - View Dependent Claims (2)
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Specification