Physiological signal monitoring system
First Claim
1. A physiological signal monitoring system comprising:
- (a) a PPG sensor adapted to come into skin contact with a user'"'"'s body part, for sensing a physiological characteristic of the user and for generating electrical signals which correspond to said physiological characteristic, wherein said physiological characteristic comprises the user'"'"'s blood volume contour;
(b) first processing means operatively coupled to said sensor for receiving and converting said electrical signals into data, for computing a set of physiological parameters on the basis of said data and for conducting analysis of said physiological parameters, said first processing means comprising;
(i) filtering means for filtering nonpulsatile and slowly pulsatile signals from the blood volume contour to obtain a filtered blood volume contour;
(ii) extraction means for extracting characteristics of the user'"'"'s aortic reflected wave contour from a volume contour chosen from one of the blood volume contour and the filtered blood volume contour, the characteristics of the user'"'"'s aortic reflected wave contour being determined in part from a fourth derivative of said volume contour;
(iii) computing means for determining the set of physiological parameters based on characteristics of said aortic reflected wave; and
, (c) display means coupled to said first processing means for displaying said physiological parameters.
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Abstract
A health monitoring and biofeedback system comprising a photoplethysmography (PPG) sensor, a processing device, and a Web site server for determining, displaying and analyzing various cardiovascular parameters. The PPG sensor is installed within a manually operated user input device such as a mouse or keyboard, measures a user'"'"'s blood volume contour and transmits it to a processing device such as a personal computer or a personal digital assistant (PDA). The system determines a plurality of cardiovascular indices including mean blood pressure, heart rate, body temperature, respiratory rate, and arterial compliance on the basis of signal characteristics of the systolic wave pulse and the systolic reflected wave pulse present within the digital volume pulse derived from the PPG pulse contour. Signal characteristics of the systolic reflected wave pulse can be determined through various pulse analysis techniques including derivative analysis of the digital volume pulse signal, bandpass filtering or respiratory matrix frequency extraction techniques. By subtracting the systolic reflected wave pulse contour from the digital volume pulse contour, characteristics of the systolic wave pulse can also be identified. The system also provides for the accurate determination of systolic and diastolic blood pressure by using a non-invasive blood pressure monitor to calibrate the relationships between arterial or digital blood pressure and characteristics of the user'"'"'s digital volume pulse contour. In this way, a wide variety of cardiovascular and respiratory data can be obtained. The system also facilitates the transmittal of such data to the system web site for further analysis, storage, and retrieval purposes.
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Citations
39 Claims
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1. A physiological signal monitoring system comprising:
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(a) a PPG sensor adapted to come into skin contact with a user'"'"'s body part, for sensing a physiological characteristic of the user and for generating electrical signals which correspond to said physiological characteristic, wherein said physiological characteristic comprises the user'"'"'s blood volume contour;
(b) first processing means operatively coupled to said sensor for receiving and converting said electrical signals into data, for computing a set of physiological parameters on the basis of said data and for conducting analysis of said physiological parameters, said first processing means comprising;
(i) filtering means for filtering nonpulsatile and slowly pulsatile signals from the blood volume contour to obtain a filtered blood volume contour;
(ii) extraction means for extracting characteristics of the user'"'"'s aortic reflected wave contour from a volume contour chosen from one of the blood volume contour and the filtered blood volume contour, the characteristics of the user'"'"'s aortic reflected wave contour being determined in part from a fourth derivative of said volume contour;
(iii) computing means for determining the set of physiological parameters based on characteristics of said aortic reflected wave; and
,(c) display means coupled to said first processing means for displaying said physiological parameters. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
(d) storage means for storing unique characteristics of an aortic reflected wave contour; and
(e) verification means coupled to said first processing means and said storage means for comparing said extracted characteristics of the user'"'"'s aortic reflected wave with said unique characteristics of the aortic reflected wave and for providing the user with access to the resource only if said extracted characteristics of the user'"'"'s aortic reflected wave is at least substantially identical to said unique characteristics of the aortic reflected wave.
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22. The physiological signal monitoring system of claim 21, wherein said verification means compares the shape and timing characteristics of said extracted user'"'"'s aortic reflected wave with the shape and timing characteristics of said unique aortic reflected wave.
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23. The physiological signal monitoring system of claim 21, wherein said verification means is operatively coupled to said storage means over a communications network.
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24. The physiological signal monitoring system of claim 21, wherein said storage means comprises a database server.
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25. A method of monitoring the physiological signals of a user comprising the steps of:
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(a) positioning a PPG sensor in close proximity to a body part of the user for sensing a physiological characteristic of the user and for generating electrical signals which correspond to said physiological characteristic, wherein said physiological characteristic comprises the user'"'"'s blood volume contour;
(b) receiving and converting said electrical signals into data and computing a set of physiological parameters on the basis of said data;
(c) analyzing said physiological parameters according to the following steps;
(i) filtering nonpulsatile and slowly pulsatile signals from the blood volume contour to obtain a filtered blood volume contour;
(ii) extracting characteristics of the user'"'"'s aortic reflected wave contour from a volume contour chosen from one of the blood volume contour and the filtered blood volume pulse contour, the characteristics of the user'"'"'s aortic reflected wave contour being determined in part from a fourth derivative of said volume contour; and
,(iii) determining the set of physiological parameters based on characteristics of said aortic reflected wave; and
,(d) displaying said physiological parameters to the user. - View Dependent Claims (26, 27, 28, 29, 30, 31, 32, 33, 34, 35)
(e) storing unique characteristics of an aortic reflected wave contour in a database;
(f) comparing said extracted characteristics of the user'"'"'s aortic reflected wave with said unique characteristics of the aortic reflected wave; and
(g) providing the user with access to the resource only if said extracted characteristics of the user'"'"'s aortic reflected wave is at least substantially identical to said unique characteristics of the aortic reflected wave.
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33. The method of claim 32, wherein step (g) comprises comparing the shape and timing characteristics of said extracted user'"'"'s aortic reflected wave with the shape and timing characteristics of said unique aortic reflected wave.
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34. The method of claim 32, further comprising the step of transmitting said user'"'"'s aortic reflected wave to a server over a communication network, said server being adapted to verify that said extracted characteristics of the user'"'"'s aortic reflected wave is at least substantially identical to said unique characteristics of the aortic reflected wave.
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35. The method of claim 25, wherein sensing said blood volume contour comprises placing an ear lobe of the user in contact with the PPG sensor.
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36. A physiological signal monitoring system for selectively providing a user with access to a resource, said system comprising:
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(a) a PPG sensor adapted to come into skin contact with a user'"'"'s body part, for sensing a physiological characteristic of the user and for generating electrical signals which correspond to said physiological characteristic;
(b) processing means operatively coupled to said sensor for receiving and converting said electrical signals into data, for computing a set of physiological parameters on the basis of said data and for extracting characteristics of an aortic reflected wave for the user from said data;
(c) storage means for storing unique characteristics of an aortic reflected wave contour for the user;
(d) verification means coupled to said processing means and said storage means for comparing said extracted characteristics of the aortic reflected wave with said unique characteristics of the aortic reflected wave and for providing the user with access to the resource only if said extracted characteristics of the user'"'"'s aortic reflected wave is at least substantially identical to said unique characteristics of the aortic reflected wave; and
,(e) display means coupled to said processing means for displaying said physiological parameters. - View Dependent Claims (37, 38, 39)
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Specification