Detection of motion in vibro-acoustography
First Claim
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1. A vibro-acoustic system which comprises:
- a) a force generator for imparting harmonic motion to a subject at a prescribed frequency, the harmonic motion propagating over a given distance;
b) an ultrasonic system including;
an ultrasonic transducer;
a transmitter connected to the ultrasonic transducer and being operable therewith to produce an ultrasonic beam which repeatedly applies ultrasonic energy to each of a plurality of spaced apart prescribed points on the subject through which the imparted harmonic motion propagates;
a receiver connected to the ultrasonic transducer and being operable therewith to receive from each of the spaced apart prescribed points a corresponding plurality of ultrasonic echoes; and
c) a processor connected to receive the ultrasonic echoes and including a Kalman filter which for each of the spaced apart prescribed points extracts from the corresponding plurality of ultrasonic echoes an amplitude and a phase of the harmonic motion at that prescribed point, and wherein the processor is operable to calculate a mechanical property using the extracted information.
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Abstract
Harmonic motion is produced in a subject using vibro-acoustography. An ultrasonic imaging system repetitively interrogates the subject and the Doppler shift in the reflected echo signals is analyzed to measure the phase and amplitude of harmonic motion produced in the subject at different prescribed frequencies. Shear wave propagation through the subject is determined from this information and mechanical properties related to “stiffness” of the subject are determined. A Kalman filter is employed in the phase and amplitude measurement to extract the harmonic motion information from background noise.
29 Citations
15 Claims
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1. A vibro-acoustic system which comprises:
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a) a force generator for imparting harmonic motion to a subject at a prescribed frequency, the harmonic motion propagating over a given distance; b) an ultrasonic system including; an ultrasonic transducer; a transmitter connected to the ultrasonic transducer and being operable therewith to produce an ultrasonic beam which repeatedly applies ultrasonic energy to each of a plurality of spaced apart prescribed points on the subject through which the imparted harmonic motion propagates; a receiver connected to the ultrasonic transducer and being operable therewith to receive from each of the spaced apart prescribed points a corresponding plurality of ultrasonic echoes; and c) a processor connected to receive the ultrasonic echoes and including a Kalman filter which for each of the spaced apart prescribed points extracts from the corresponding plurality of ultrasonic echoes an amplitude and a phase of the harmonic motion at that prescribed point, and wherein the processor is operable to calculate a mechanical property using the extracted information. - View Dependent Claims (2, 3)
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4. A method for measuring a mechanical property of a subject, the steps comprising:
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a) applying a force to the subject which imparts harmonic motion thereto at a prescribed frequency, the harmonic motion propagating over a given distance; b) sensing the harmonic motion at a plurality of spaced apart prescribed points on the subject, through which the harmonic motion propagates, with an ultrasonic system that applies a pulsed ultrasonic beam to each prescribed point and receives a corresponding plurality of ultrasonic echo signals from each prescribed point; c) processing the corresponding plurality of ultrasonic echo signals to detect the harmonic motion at each of the prescribed points and to extract a phase of the harmonic motion at each of the prescribed points; d) calculating the mechanical property using the extracted phases. - View Dependent Claims (5, 6, 7)
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8. A method for measuring a mechanical property of a subject, the steps comprising:
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a) applying a force to the subject which imparts harmonic motion thereto at a prescribed frequency; b) sensing the harmonic motion at a plurality of prescribed points on the subject with an ultrasonic system that repeatedly applies a pulsed ultrasonic beam to each prescribed point and receives a corresponding plurality of ultrasonic echo signals from each prescribed point; c) processing the corresponding plurality of ultrasonic echo signals to detect the harmonic motion at each of the prescribed points and to extract a phase of the harmonic motion at each of the prescribed points; d) calculating a first shear wave speed using the extracted phases at the prescribed points; e) repeating steps a) through c) at a different prescribed frequency and calculating a second shear wave speed using the extracted phases at the prescribed points at the different prescribed frequency; and f) calculating the mechanical property using the first wave speed and the second wave speed. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification
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Current AssigneeMayo Foundation For Medical Education And Research (Mayo Clinic)
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Original AssigneeMayo Foundation For Medical Education And Research (Mayo Clinic)
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InventorsZheng, Yi, Tan, Wei, Chen, Shigao, Greenleaf, James Fowler
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Primary Examiner(s)Le; Long V
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Assistant Examiner(s)Weatherby; Ellsworth
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Application NumberUS10/956,461Publication NumberTime in Patent Office2,160 DaysField of Search600/437, 600/438, 600/441, 600/444, 600/442, 601/2, 606/128, 73/18.2, 73/18.9US Class Current600/438CPC Class CodesA61B 8/00 Diagnosis using ultrasonic,...A61B 8/485 involving measuring strain ...
