Methods and systems for improved correlation of shear displacement waveforms
First Claim
1. A method for improving correlation of shear displacement waveforms for ultrasound imaging, comprising:
- delivering one or more reference pulses to a plurality of target regions to detect initial positions of the plurality of target regions;
delivering a pulse sequence comprising a plurality of pushing pulse segments to one or more pushing locations, wherein one or more parameters corresponding to the plurality of pushing pulse segments are adapted such that the pulse sequence approximates a desired wave shape for generating at least one shear displacement waveform that approximates the same desired wave shape, wherein generating the shear displacement waveform with the desired wave shape comprises generating a sinusoid waveform, a triangular waveform, a square waveform, a sinc waveform, or combinations thereof;
delivering one or more tracking pulses to the plurality of target regions for detecting displacements of at least a subset of the plurality of target regions as a function of time, wherein the displacements are time samples of the shear displacement waveform;
determining a shift between the shear displacement waveform detected at least two different target regions in the subset of the plurality of target regions;
estimating one or more material properties of one or more of the plurality of target regions based on the determined shift; and
providing control and timing of said reference pulses, pushing pulse segments, and tracking pulses with a processing unit.
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Abstract
Methods and systems for improving correlation of shear displacement waveforms are presented. The method includes delivering one or more reference pulses to a plurality of target regions to detect corresponding initial positions. Further, a plurality of pushing pulse segments are delivered to one or more pushing locations, where one or more parameters corresponding to the plurality of pushing pulse segments are adapted for generating a shear displacement waveform with a desired wave shape. Additionally, one or more tracking pulses may be delivered to the plurality of target regions for detecting displacements of at least a subset of the target regions as a function of time. Particularly, the displacements are determined as time samples of the shear displacement waveform. Subsequently, a shift between the shear displacement waveform detected at least two different target regions in the subset of the plurality of target regions is detected.
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Citations
19 Claims
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1. A method for improving correlation of shear displacement waveforms for ultrasound imaging, comprising:
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delivering one or more reference pulses to a plurality of target regions to detect initial positions of the plurality of target regions; delivering a pulse sequence comprising a plurality of pushing pulse segments to one or more pushing locations, wherein one or more parameters corresponding to the plurality of pushing pulse segments are adapted such that the pulse sequence approximates a desired wave shape for generating at least one shear displacement waveform that approximates the same desired wave shape, wherein generating the shear displacement waveform with the desired wave shape comprises generating a sinusoid waveform, a triangular waveform, a square waveform, a sinc waveform, or combinations thereof; delivering one or more tracking pulses to the plurality of target regions for detecting displacements of at least a subset of the plurality of target regions as a function of time, wherein the displacements are time samples of the shear displacement waveform; determining a shift between the shear displacement waveform detected at least two different target regions in the subset of the plurality of target regions; estimating one or more material properties of one or more of the plurality of target regions based on the determined shift; and providing control and timing of said reference pulses, pushing pulse segments, and tracking pulses with a processing unit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An ultrasound system, comprising:
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a transducer array that delivers a pulse sequence comprising a plurality of pulses to a plurality of target regions, wherein the plurality of pulses comprise one or more reference pulses, one or more tracking pulses delivered to the plurality of target regions and at least one pushing pulse delivered to one or more pushing locations as a plurality of pushing pulse segments; a pulse shaping unit communicatively coupled to the transducer array, wherein the pulse shaping unit generates at least one shear displacement waveform with a desired wave shape by adapting one or more parameters corresponding to the plurality of pushing pulse segments such that the pulse sequence approximates the desired wave shape; and a processing unit communicatively coupled to at least one of the pulse shaping unit and the transducer array, wherein the processing unit; adapts the one or more parameters corresponding to the plurality of pushing pulse segments to enable the pulse shaping unit to generate the shear displacement waveform with the desired wave shape; processes data received from at least a subset of the plurality of target regions in response to the plurality of pushing pulse segments to determine displacements of the plurality of target regions, wherein the displacements are time samples of the shear displacement waveform; and determines a shift between the shear displacement waveform detected at at least two different target regions in the subset of the plurality of target regions. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A non-transitory computer readable storage medium with an executable program thereon for improving correlation of shear displacement waveforms, wherein the program instructs a processing unit to perform the following steps:
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delivering one or more reference pulses to a plurality of target regions to detect initial positions of the plurality of target regions; delivering a pulse sequence comprising a plurality of pushing pulse segments to one or more pushing locations, wherein one or more parameters corresponding to the plurality of pushing pulse segments are adapted such that the pulse sequence approximates a desired wave shape for generating at least one shear displacement waveform with the same desired wave shape; delivering one or more tracking pulses to the one or more target regions for detecting displacements of at least a subset of the plurality of target regions as a function of time, wherein the displacements are time samples of the shear displacement waveform; and determining a shift between the shear displacement waveform detected at least two different target regions in the subset of the plurality of target regions.
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16. The non-transitory computer readable storage medium of 15, wherein one or more parameters corresponding to the plurality of pushing pulse segments comprise an amplitude, a frequency, a pulse length, a waveform, or combinations thereof.
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17. The non-transitory computer readable storage medium of 15, wherein generating the shear displacement waveform with the desired wave shape comprises generating a sinusoidal waveform, a triangular waveform, a square waveform, a sinc waveform, or combinations thereof.
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18. The non-transitory computer readable storage medium of 15, wherein generating the shear displacement waveform with the desired wave shape comprises generating a waveform comprising a digital code convolved with a delta function, a multi-level code convolved with a delta function, a sine waveform, a square waveform, a sinc waveform, or combinations thereof.
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19. The non-transitory computer readable storage medium of 15, further comprising estimating a shear velocity a shear elastic modulus corresponding to the plurality of the target regions, a viscosity corresponding to the plurality of the target regions, or combinations thereof, based on the determined shift between the shear wave displacement waveform detected at at least the two different target regions.
Specification