Method for ultrasonic coronary thrombolysis
First Claim
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1. A method for lysing a thrombus in a human body, comprisinga) introducing an ultrasound contrast agent into the human body;
- b) transmitting an ultrasound signal towards the thrombus at at least one transmission frequency;
c) receiving an ultrasound signal reflected off of said thrombus said received ultrasound signal having a temporal characteristic;
d) calculating a spatial location of said thrombus from said temporal characteristic; and
e) transmitting ultrasound energy towards said spatial location.
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Abstract
A method and apparatus for achieving ultrasonic coronary thrombolysis. After intravenous injection of a thrombus-specific ultrasound contrast agent, an array of ultrasonic transducers arranged in a pad placed on the patient'"'"'s chest transmits ultrasound signals into the patient, from a virtual source. Reflected signals are then analyzed to determine the ratio of the second (or hall) harmonic to first harmonic components in the signals. A high ratio indicates the presence of a thrombus in the field of interrogation Time-of-flight data for each of the receivers is used to calculate a spatial location of the thrombus, and a phased array ultrasonic transmission is then focused on the thrombus, so as to achieve sonoparation.
99 Citations
19 Claims
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1. A method for lysing a thrombus in a human body, comprising
a) introducing an ultrasound contrast agent into the human body; -
b) transmitting an ultrasound signal towards the thrombus at at least one transmission frequency;
c) receiving an ultrasound signal reflected off of said thrombus said received ultrasound signal having a temporal characteristic;
d) calculating a spatial location of said thrombus from said temporal characteristic; and
e) transmitting ultrasound energy towards said spatial location. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An apparatus for treating a thrombus in a human body, comprising
a) a sheet of material, said sheet being placeable on the human body; -
b) a plurality of ultrasound transmitters for transmitting ultrasound signals into the human body, said transmitters being fixedly located within said sheet, and said transmitters being oriented within said sheet such that said transmission is effected into the human body;
c) a plurality of ultrasound receivers for receiving ultrasound signals reflected from the human body, said receivers being fixedly located within said sheet, and said receivers being oriented within said sheet such that said reception is effected from the human body;
d) a layer of ultrasound coupling medium applied to a surface of said ultrasound transmitters and said ultrasound receivers, said layer being conformable to a contour of the human body; and
e) a processor for processing said received signals, said processor being functional to i) calculate a temporal characteristic of said received signals, and ii) diagnose a thrombus from said calculated temporal characteristic. - View Dependent Claims (14, 15, 16, 17, 18, 19)
iii) quantify a time-of-flight for said received signals, and iv) calculate a spatial location of said thrombus from said time-of-flight quantities.
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15. The apparatus of claim 14, wherein said processor is further functional to:
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v) calculate a pattern of transmission for said ultrasound transmitters such that transmitted ultrasound energy is focused on said calculated spatial location, and vi) effect transmission of said ultrasound transmitters according to said calculated pattern.
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16. The apparatus of claim 13, wherein said sheet includes plastic.
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17. The apparatus of claim 13, wherein said transmitters and said receivers are arranged in a checkerboard pattern relative to each other in said sheet.
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18. The apparatus of claim 13, wherein said calculated temporal characteristic is an increased ratio of a frequency component equal to a second harmonic of said transmission frequency to a frequency component equal to a first harmonic of said transmission frequency.
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19. The apparatus of claim 13, wherein said calculated temporal characteristic is an increased ratio of a frequency component equal to a half harmonic of said transmission frequency to a frequency component equal to a first harmonic of said transmission frequency.
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Current AssigneeSonata Technologies Ltd.
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Original AssigneeSonata Technologies Ltd.
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InventorsBukshpan, Shmuel
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Primary Examiner(s)Jaworski, Francis J.
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Application NumberUS09/780,511Publication NumberTime in Patent Office722 DaysField of Search600/439, 600/463, 600/466-467, 600/471, 601/2-3US Class Current600/439CPC Class CodesA61B 8/12 in body cavities or body tr...A61B 8/4483 characterised by features o...A61B 8/4488 the transducer being a phas...G10K 11/346 using phase variation
