Phase imaging and myocardial performance
First Claim
1. A method of monitoring and displaying performance of a heart, comprising the steps of:
- coupling echocardiographic probe to a person such that echocardiographic signals reflected from the tissue of heart of said person can be collected;
selecting a cardiac-related scalar quantity for assessing operation of said heart such that said cardiac-related scalar quantity is direction-independent and varies predictably with said performance to be assessed;
monitoring said cardiac-related scalar quantity for various points of said heart tissue for a predetermined time interval, said monitoring including collecting a time series of said echocardiographic signals from said echocardiographic probe and including extracting data from said time series such that a time-varying signal of said cardiac-related scalar quantity is obtained for each of said various points, said monitoring including manipulating data from said echocardiographic signals prior to display in order to extract phase angle data from said time-varying signals; and
displaying said phase angle data such that a sequence of motion of said various points of said heart tissue is exhibited as an indicator of said performance.
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Abstract
A method and system for monitoring performance of a heart includes forming a time series of frames of echocardiographic data. The time series may be for a systolic interval, but longer intervals are also possible. The frames of the time series have sets of corresponding data points with respect to specific sites of a patient'"'"'s heart. For each set of corresponding data points, a time domain signal as a function of a selected scalar is determined, thereby yielding a time domain signal which varies with frame-to-frame variations of the selected scalar. The scalar has a physiological significance to the contractile state or the motion of the myocardium. Mean squared speed, root mean squared speed, mean squared rate of signal change, integrated backscatter, correlation area, and echocardiographic signal data magnitude are suitable scalars. For each time domain signal, a phase angle is obtained to assign a pixel value to an image data point. The pixel values are utilized to generate either a gray-scale two-dimensional image or a time series of cardiac performance.
39 Citations
19 Claims
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1. A method of monitoring and displaying performance of a heart, comprising the steps of:
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coupling echocardiographic probe to a person such that echocardiographic signals reflected from the tissue of heart of said person can be collected; selecting a cardiac-related scalar quantity for assessing operation of said heart such that said cardiac-related scalar quantity is direction-independent and varies predictably with said performance to be assessed; monitoring said cardiac-related scalar quantity for various points of said heart tissue for a predetermined time interval, said monitoring including collecting a time series of said echocardiographic signals from said echocardiographic probe and including extracting data from said time series such that a time-varying signal of said cardiac-related scalar quantity is obtained for each of said various points, said monitoring including manipulating data from said echocardiographic signals prior to display in order to extract phase angle data from said time-varying signals; and displaying said phase angle data such that a sequence of motion of said various points of said heart tissue is exhibited as an indicator of said performance. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of monitoring cardiac performance comprising:
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disposing an echocardiographic probe relative to a patient for receiving echocardiographic signals of a selected cardia tissue target volume; converting said echocardiographic signals into a plurality of data frames of cells of direction-independent values of echocardiographic, said frames thereby forming a sequence of echocardiographic; storing said data frames in a memory prior to display; for corresponding cells in said frames of said sequence, determining the onset of change in the direction-independent value in said corresponding cells and representing said onset as a phase angle value; and representing all said phase angle values in a form for displaying a sequence of motion within said selected cardiac target volume. - View Dependent Claims (11)
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12. A method of monitoring performance of a heart comprising the steps of:
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(a) transmitting ultrasonic wave energy into a patient in the direction of the patient'"'"'s heart; (b) receiving echo signals reflected from tissue of said heart; (c) in response to said echo signals, forming a plurality of frames of echo data such that said frames form a sequence generated during a cardiac cycle, said frames having sets of corresponding data points with respect to specific sites of said heart; (d) for a first set of corresponding data points of said frames, manipulating said echo data generally in the absence of data compensation in order to form a time domain signal of a selected one of mean squared speed, root mean squared speed, mean squared rate of signal change, integrated backscatter, correlation area and echo-signal data magnitude, thereby yielding a time domain signal which varies with frame-to-frame variations of said selected one at said corresponding data points; (e) extracting motion data from said time domain signal to determine onset of motion with respect to said specific site of said heart represented by said first set of corresponding data points in said frames of step (c); (f) assigning a pixel value to an image data point of an image to be formed, wherein assigning said pixel value is in response to said motion data; (g) repeating steps (d) to (f) for each set of corresponding data points to obtain a plurality of said pixel values; and (h) imaging a sequence of cardiac activity utilizing said plurality of pixel values. - View Dependent Claims (13, 14, 15, 16)
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17. A system for monitoring performance of a heart comprising:
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echocardiographic probe means for transmitting ultrasonic waves into a living body and for receiving echo signals reflected from tissue of said heart; means for storing a time series of frames of echocardiographic data points in response to echo signals received from said echocardiographic probe means during a predetermined period of time, said means for storing being connected to said echocardiographic means to store echocardiographic data from said probe means; means for extracting, on a data point-by-data point basis, said echocardiographic data from said recording means to form a plurality of time-varying signals of a cardiac-related, direction-independent quantity of said echocardiographic data; means for converting each time-varying signal to phase angle data; and means for storing said phase angle data converted from said time-varying signals. - View Dependent Claims (18, 19)
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Specification