Method and apparatus for assessing hemodynamic properties within the circulatory system of a living subject
First Claim
1. A method of assessing hemodynamic properties within the circulatory system of a living subject, comprising:
- measuring a first parameter from a blood vessel of said subject;
compressing said blood vessel, and measuring a second parameter from said blood vessel during at least a portion of said act of compressing;
identifying at least one artifact within said second parameter;
generating a calibration function based at least in part on said at least one artifact; and
calibrating the first parameter using at least said calibration function.
9 Assignments
0 Petitions
Accused Products
Abstract
An improved method and apparatus for non-invasively assessing one or more hemodynamic parameters associated with the circulatory system of a living organism. In one aspect, the invention comprises a method of measuring a hemodynamic parameter by measuring a non-calibrated value of the parameter non-invasively, and inducing a stress of the circulatory system while measuring a second parameter. The response of the circulatory system to the stress is determined directly from the subject, and a calibration function is derived from the response and applied to the non-calibrated measured value to produce a calibrated measure of the actual value of the hemodynamic parameter. Methods of generating a tissue transfer function from measurements of the subject, correcting for periodic or aperiodic error components, and providing treatment to the subject based on the measured hemodynamic parameters, are also disclosed.
-
Citations
43 Claims
-
1. A method of assessing hemodynamic properties within the circulatory system of a living subject, comprising:
-
measuring a first parameter from a blood vessel of said subject;
compressing said blood vessel, and measuring a second parameter from said blood vessel during at least a portion of said act of compressing;
identifying at least one artifact within said second parameter;
generating a calibration function based at least in part on said at least one artifact; and
calibrating the first parameter using at least said calibration function. - View Dependent Claims (2, 3, 4, 5, 6, 7)
transmitting an acoustic wave into said blood vessel;
receiving at least one echo of said acoustic wave; and
analyzing said at least one echo to derive an estimate of said second parameter.
-
-
3. The method of claim 2, wherein said second parameter comprises blood velocity, and the act of identifying at least one artifact comprises identifying a predetermined variation in maximum blood velocity.
-
4. The method of claim 2, wherein said second parameter is related to blood velocity, and the act of identifying at least one artifact comprises identifying a maximum value within said second parameter.
-
5. The method of claim 1, wherein said act of compressing comprises compressing said blood vessel according to an applanation profile.
-
6. The method of claim 5, wherein said profile comprises modulating the position of said at least one transducer as a function of time.
-
7. The method of claim 1, wherein said first parameter comprises pressure, and said second parameter is related to blood flow velocity.
-
8. A method of assessing hemodynamic properties within the circulatory system of a living subject, comprising:
-
measuring a pressure waveform from a blood vessel of said subject using at least one transducer;
compressing said blood vessel using said at least one transducer, and measuring a parameter from said blood vessel during at least a portion of said act of compressing;
identifying at least one artifact within said parameter;
generating a calibration function based at least in part on said at least one artifact; and
calibrating the pressure waveform using at least said calibration function. - View Dependent Claims (9, 10, 11, 12, 14)
measuring the Doppler shift associated with the blood flowing within the blood vessel; and
calculating the mean kinetic energy of said blood based on said Doppler shift.
-
-
13. A method of assessing hemodynamic properties within the circulatory system of a living subject, comprising:
-
measuring a first parameter from a blood vessel of said subject;
compressing said blood vessel, and measuring from said vessel the kinetic energy of blood flowing therein during at least a portion of said act of compressing;
deriving a calibration function based at least in part on said kinetic energy; and
calibrating the first parameter using said calibration function.
-
-
15. A method of assessing hemodynamic properties within the circulatory system of a living subject, comprising:
-
measuring a first parameter from a blood vessel of said subject;
compressing said blood vessel. and measuring the diameter of said blood vessel during at least a portion of said act of compressing;
deriving a calibration function based at least in part on said diameter; and
calibrating the first parameter using said calibration function. - View Dependent Claims (16, 17, 18, 19, 20, 21)
transmitting an acoustic wave into said blood vessel;
receiving at least one echo from said acoustic wave; and
analyzing said at least one echo to determine the arterial diameter.
-
-
17. The method of claim 16, wherein said acoustic wave comprises an A-mode acoustic transmission.
-
18. The method of claim 16, wherein said acoustic wave comprises an M-mode (motion-mode) acoustic transmission.
-
19. The method of claim 16, wherein said acoustic wave comprises a B-mode (brightness mode) acoustic transmission.
-
20. The method of claim 15, wherein said act of deriving a calibration function comprises identifying at least one artifact during said act of measuring said diameter, and generating said calibration function based at least in part on said at least one artifact.
-
21. The method of claim 20, wherein said act of identifying at least one artifact comprises identifying the level of compression at which the cross-sectional area of said blood vessel is maximized.
-
22. A method of assessing hemodynamic properties within the circulatory system of a living subject, comprising:
-
measuring a first parameter from a blood vessel of said subject;
compressing said blood vessel, and measuring the volumetric flow rate associated with at least a portion of said blood vessel during at least a portion of said act of compressing;
deriving a calibration function based at least in part on said volumetric flow rate; and
calibrating the first parameter using said calibration function. - View Dependent Claims (23)
-
-
24. A method of assessing hemodynamic properties within the circulatory system of a living subject, comprising:
-
measuring a first parameter from a blood vessel of said subject;
compressing said blood vessel, and measuring a second parameter from said blood vessel during at least a portion of said act of compressing;
measuring the actual compression of said blood vessel during at least a portion of said act of compressing;
generating a transfer function indicative of said actual compression;
deriving a calibration function based at least in part on said second parameter and said transfer function; and
calibrating the first parameter using said calibration function. - View Dependent Claims (25, 26)
-
-
27. A method of measuring the pressure within the circulatory system of a living subject, comprising:
-
measuring a non-calibrated pressure from a blood vessel of said subject;
measuring a second parameter from said blood vessel;
creating a stress on said blood vessel during at least a portion of the act of measuring said second parameter, said stress producing a known effect on said second parameter, the application of said stress being selectively controlled so as to maintain a predetermined condition within said blood vessel;
identifying at least one marker within said measurement of said second parameter, said at least one marker being related to said known effect;
deriving a calibration function based at least in part on said at least one marker; and
correcting said non-calibrated pressure using the derived calibration function. - View Dependent Claims (28, 29, 30)
-
-
31. A method of measuring the pressure within the circulatory system of a living subject, comprising:
-
measuring a non-calibrated pressure from a blood vessel of said subject;
measuring the velocity of blood flowing within said blood vessel using an acoustic wave and by forming a time-frequency representation from echoes of said acoustic wave;
variably compressing said blood vessel as a function of time during at least a portion of the act of measuring said velocity, said compressing producing a known effect on said velocity;
identifying at least one marker within said measurement of said velocity, said at least one marker being related to said known effect;
deriving a calibration function based at least in part on said at least one marker; and
correcting said non-calibrated pressure using the derived calibration function.
-
-
32. A method of measuring the pressure within the circulatory system of a living subject, comprising:
-
measuring a non-calibrated pressure waveform from a blood vessel of said subject;
determining the velocity of blood flowing within said blood vessel at least in part by forming a time-frequency representation from echoes of acoustic waves transmitted into said blood vessel;
variably compressing said blood vessel as a function of time during at least a portion of the act of determining said velocity, said compressing producing a known effect on said velocity;
identifying at least one marker within said determination of said velocity, said at least one marker being related to said known effect;
deriving a calibration function based at least in part on said at least one marker; and
correcting said non-calibrated pressure waveform using the derived calibration function.
-
-
33. A method of measuring the pressure within the circulatory system of a living subject, comprising:
-
measuring a non-calibrated pressure from a blood vessel of said subject;
measuring the velocity of blood flowing within said blood vessel using an acoustic wave;
forming a time-frequency representation from echoes of said acoustic wave;
variably compressing said blood vessel as a function of time during at least a portion of the act of measuring said velocity, said compressing producing a known effect on said velocity;
identifying at least one marker within said measurement of said velocity, said at least one marker being related to said known effect, said act of identifying being based at least in part on said time-frequency representation;
deriving a calibration function based at least in part on said at least one marker; and
correcting said non-calibrated pressure using the derived calibration function.
-
-
34. An apparatus for measuring hemodynamic properties within the radial artery of a human subject comprising:
-
a pressure transducer adapted to be located proximate said artery and measure at least a pressure waveform therefrom;
an acoustic transducer adapted to measure at least one hemodynamic parameter associated with said artery;
an applanation device adapted to compress at least a portion of said artery while measuring said at least one hemodynamic parameter; and
a signal processor operatively connected to said pressure and acoustic transducers and configured to generate a calibration function based at least in part on a signal produced by said acoustic transducer, and apply said calibration function to a signal produced by said pressure transducer. - View Dependent Claims (35, 36, 37, 38, 39, 40, 41)
-
-
42. An information storage device, comprising;
-
a data storage medium;
a plurality of data stored on said medium, said plurality of data comprising a computer program adapted to run on a data processor, said computer program being configured for determining a calibrated value of a first hemodynamic parameter of a living subject based on first, second, and third input data, said first input data being representative of a non-calibrated value of said first hemodynamic parameter, said second input data being representative of a second hemodynamic parameter, said third input data relating to the error associated with said first input data, the act of determining said calibrated value of said first hemodynamic parameter comprising;
analyzing said second input data to identify at least one functional relationship therein;
identifying at least one marker within said at least one functional relationship;
determining a calibration function based at least in part on said at least one marker and said third data; and
applying said calibration function to said first input data to determine said calibrated value.
-
-
43. An information storage device, comprising;
-
a data storage medium;
a plurality of data stored on said medium, said plurality of data comprising a computer program adapted to run on a data processor, said computer program being configured for determining a calibrated value of a first hemodynamic parameter of a living subject based on first input data and second input data, said first input data being representative of a non-calibrated value of said first hemodynamic parameter, said second input data being representative of a second hemodynamic parameter, the act of determining said calibrated value of said first hemodynamic parameter comprising;
forming a time-frequency distribution from said second input data;
analyzing at least said time-frequency distribution to identify at least one artifact therein;
utilizing said at least one artifact to derive a calibration function; and
applying said calibration function to said first input data to determine said calibrated value.
-
Specification