Adaptive ultrasound image fusion
First Claim
1. A method for ultrasonically imaging with different signals for artifact reduction, adding missing small vessel information or enhancing tissue morphology the method comprising:
- (a) generating a Doppler image signal representative of an imaged region;
(b) generating a B-mode image signal representative of the imaged region; and
(c) generating individual display indicia representative of the imaged region as a modulated, non-linear function of both the Doppler and B-mode image signals, the non-linear function substantially maintaining portions of the B-mode image signal associated with stationary tissue and substantially suppressing portions of the B-mode image signal associated with flow.
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Abstract
Elevation fold-in artifact is reduced by combining Doppler and B-mode image signals. The B-mode image signals and Doppler image signals are combined using a modulated, non-linear function. Portions of the B-mode image signal associated with stationary tissue are intact while portions of the B-mode image signal associated with flow are substantially suppressed. The suppression is gradual rather than binary to avoid flash artifacts, such as providing an adaptive modulated, non-linear combination function. Doppler or flow image signals are less sensitive than tissue or B-mode signals to elevation beam width. Suppressing the B-mode image signal where flow exists better identifies small vessels that would otherwise be characterized as tissue. Small vessel or other small structure information associated with moving fluid is inserted within the gray-scale or B-mode image. Clutter within large vessels is more likely mapped to black or removed. The pathology is kept intact by not removing stationary tissue information. The enhanced large vessel presentation and added visibility of small vessels provides more detail about tissue morphology for radiology applications. The resulting gray-scale image appears as if fine or narrow beams had been used in both the azimuth as well as the elevation directions. Unlike a true narrowing of the elevation beam at a focal point, the enhanced imaging is provided over an entire field of view, and is not probe dependent. The enhanced imaging could be a software solution.
26 Citations
34 Claims
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1. A method for ultrasonically imaging with different signals for artifact reduction, adding missing small vessel information or enhancing tissue morphology the method comprising:
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(a) generating a Doppler image signal representative of an imaged region;
(b) generating a B-mode image signal representative of the imaged region; and
(c) generating individual display indicia representative of the imaged region as a modulated, non-linear function of both the Doppler and B-mode image signals, the non-linear function substantially maintaining portions of the B-mode image signal associated with stationary tissue and substantially suppressing portions of the B-mode image signal associated with flow. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A system for ultrasonically imaging with different signals for artifact reduction, the system comprising:
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a Doppler detector operable to generating a Doppler image signal representative of an imaged region;
a B-mode detector operable to generating a B-mode image signal representative of the imaged region; and
a processor operable to calculate individual display indicia representative of the imaged region as a modulated, non-linear function of both the Doppler and B-mode image signals. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A system for ultrasonically imaging with different signals for artifact reduction, the system comprising:
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a Doppler detector operable to generating a Doppler image signal representative of an imaged region;
a B-mode detector operable to generating a B-mode image signal representative of the imaged region; and
a mixing circuit connected with the B-mode and Doppler detectors, the mixing circuit operable to calculate individual display indicia representative of the imaged region as a modulated, non-linear function of both the Doppler and B-mode image signals. - View Dependent Claims (17, 18, 19, 20, 21)
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22. A method for ultrasonically imaging with different signals for artifact reduction, the method comprising:
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(a) generating a Doppler image signal representative of an imaged region;
(b) generating a B-mode image signal representative of the imaged region; and
(c) generating individual display indicia representative of the imaged region as a modulated, non-linear function of both the Doppler and B-mode image signals, the non-linear function modulating one of the Doppler and B-mode image signals with a weighted other one of the B-mode and Doppler image signals. - View Dependent Claims (23, 24, 25)
(d) adapting the weight as a function of the other one of the B-mode and Doppler image signals.
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25. The method of claim 22 wherein (c) comprises substantially enhancing portion of the B-mode image signal associated with stationary tissue and substantially suppressing portions of the B-mode image signal associated with flow.
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26. The method of claim 22 wherein (c) comprises multiplying the B-mode image signal with a weighted Doppler image signal.
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27. The method of claim 22 wherein (c) comprises multiplying the Doppler image signal with a weighted B-mode image signal.
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28. The method of claim 22 wherein (c) comprises:
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(c1) normalizing the other one of the B-mode and Doppler image signals within a range of zero to one;
(c2) multiplying the normalized other one with a weight; and
(c3) multiplying the normalized, weighted other one with the one of the Doppler and B-mode image signals.
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29. The method of claim 22 wherein (c) comprises generating grey scale values.
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30. A method for ultrasonically imaging with different signals for artifact reduction, the method comprising:
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(a) generating a Doppler image signal representative of an imaged region;
(b) generating a B-mode image signal representative of the imaged region; and
(c) generating individual display indicia representative of the imaged region as a function of both the Doppler and B-mode image signals, one of the Doppler and B-mode image signals modulated by the one of the Doppler and B-mode images signals.
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31. The method of claim 30 wherein (c) comprises modulating the Doppler image signal with a weight responsive to the Doppler image signal.
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32. The method of claim 30 wherein (c) comprises modulating the B-mode image signal with a weight responsive to the B-mode image signal.
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33. The method of claim 30 wherein (c) comprises multiplying the modulated one of the Doppler and B-mode image signals by the other of the Doppler and B-mode image signals.
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34. The method of claim 30 wherein (c) comprises:
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(c1) selecting a weight as a function of the Doppler image signal;
(c2) weighting the Doppler image signal with the weight;
(c3) summing the weighted Doppler image signal with the B-mode image signal; and
(c4) outputting a grey scale signal representing the sum of (e).
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Specification