Ultrasonic image enhancement
First Claim
Patent Images
1. A method of enhancing ultrasonic echographic imaging in a liquid enclosed in a vessel by increasing image contrast, comprising:
- providing a plurality of microbubbles in said liquid, each of said microbubbles having a coalescence resistant surface membrane encapsulating a gas of a selected composition, said membrane including a multiplicity of non-toxic and non-antigenic organic molecules, said microbubbles having a diameter of no more than about 300 microns and no less than about 0.5 micron; and
obtaining an enhanced ultrasonic echographic image of said liquid opposite a position therein containing said microbubbles by increasing the relative contrast between said liquid and said vessel.
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Abstract
Ultrasonic images of flowing streams can provide important information regarding the streams. Herein, a plurality of microbubbles are provided in such streams to enhance such images, aid in tumor detection and treatment, provide mapping of vascularity of tissue masses and measure instantaneous blood flow rate. The preferred microbubbles have a coalescence resistant surface membrane encapsulating a gas of a selected composition, the membrane including non-toxic and non-antigenic organic molecules. Preferrably, the microbubbles have diameters in the 0.5 micron-300 micron range.
488 Citations
15 Claims
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1. A method of enhancing ultrasonic echographic imaging in a liquid enclosed in a vessel by increasing image contrast, comprising:
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providing a plurality of microbubbles in said liquid, each of said microbubbles having a coalescence resistant surface membrane encapsulating a gas of a selected composition, said membrane including a multiplicity of non-toxic and non-antigenic organic molecules, said microbubbles having a diameter of no more than about 300 microns and no less than about 0.5 micron; and obtaining an enhanced ultrasonic echographic image of said liquid opposite a position therein containing said microbubbles by increasing the relative contrast between said liquid and said vessel. - View Dependent Claims (2, 3, 4, 5)
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6. A method of detecting tumors in a living subject, comprising:
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providing a substance in a blood stream of said test subject, said substance providing a plurality of microbubbles in said blood stream, substantially all of said microbubbles being of generally a uniform size; obtaining an enhanced ultrasonic echographic image of said bubbles at a possible tumor; and examining said image for evidence of neovascularization indicative of said possible tumor.
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7. A method of detecting tumors in a living subject, comprising:
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providing a substance, comprising a plurality of microbubbles each having a surface membrane encapsulating a gas of a selected composition, said membrane including a multiplicity of non-toxic and non-antigenic organic molecules, in a blood stream of said test subject, said substance providing a plurality of microbubbles in said blood stream; obtaining an enhanced ultrasonic echographic image of said bubbles; and examining said image for evidence of neovascularization indicative of a possible tumor. - View Dependent Claims (8, 9, 10)
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11. A method of mapping the vascularity of a tissue mass, comprising:
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injecting a plurality of microbubbles, substantially all of which fall in a selected narrow size range, into a blood stream of a test subject, each of said microbubbles having a coalescing resistant surface membrane encapsulating a gas of a selected composition, said membrane including a multiplicity of non-toxic and non-antigenic organic molecules, said molecules having a diameter of between about 0.5 micron and 300 microns; obtaining an enhanced ultrasonic echographic image of the tissue mass soon after the microbubbles have flowed thereto and lodged at a first bifurcation of a first vascular size corresponding to that of the injected microbubble size range; and obtaining an additional enhanced ultrasonic echographic image of the tissue mass after a selected period of time during which the microbubbles have generally uniformly shrunk, due to dissolution thereof, to a known reduced size, have flowed past said first bifurcation, and have lodged at a second bifurcation of a second vascular size corresponding to that of the reduced size microbubble size range. - View Dependent Claims (12, 13, 14)
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15. A method of detecting tumorous tissue in a living subject, comprising:
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providing a substance in an afferent vasculature of said test subject upstream of a possible tumor, said substance providing a plurality of microbubbles in said blood stream substantially all of a diameter too large to pass through normal capillaries but small enough to pass through tumorous capillaries; and obtaining an enhanced ultrasonic echographic image of a corresponding efferent vasculature downstream of said possible tumor and noting if such microbubbles are present.
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Specification