System and method for navigating an ultrasound catheter to image a beating heart
First Claim
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1. A system for navigating an ultrasound catheter to image a beating heart, comprising:
- a) a catheter system carrying sensor electrodes and an ultrasonic transducer;
b) an ultrasound system operatively coupled to said transducer to generate a sound wave and to sense an echo wave to yield and capture ultrasound data for a first frame of the interior surface of a heart;
c) a navigation system operatively coupled to said electrodes for determining the location, in the context of a larger portion of the heart than is captured in the first frame, of the first frame; and
d) an imaging system for simultaneously displaying an ultrasound image of the first frame and a three-dimensional context map of an interior heart geometry and simultaneously highlighting a first surface on the context map corresponding to the first frame and a second surface on the context map corresponding to a second frame of the interior surface of the heart for which ultrasound data was previously captured by the ultrasound system.
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Abstract
Catheter navigation is coupled with ultrasound imaging to yield a context map showing the location on a heart of the ultrasonically imaged frame.
171 Citations
16 Claims
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1. A system for navigating an ultrasound catheter to image a beating heart, comprising:
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a) a catheter system carrying sensor electrodes and an ultrasonic transducer; b) an ultrasound system operatively coupled to said transducer to generate a sound wave and to sense an echo wave to yield and capture ultrasound data for a first frame of the interior surface of a heart; c) a navigation system operatively coupled to said electrodes for determining the location, in the context of a larger portion of the heart than is captured in the first frame, of the first frame; and d) an imaging system for simultaneously displaying an ultrasound image of the first frame and a three-dimensional context map of an interior heart geometry and simultaneously highlighting a first surface on the context map corresponding to the first frame and a second surface on the context map corresponding to a second frame of the interior surface of the heart for which ultrasound data was previously captured by the ultrasound system. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A system to generate images of the interior of a beating heart comprising:
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a) a catheter carrying multiple electrodes, said electrodes spaced from one another sufficiently to generate location and orientation data; b) an ultrasonic transducer attached to said catheter'"'"'s distal end, for generating image data of a first portion of a surface within the heart; c) a signal processing system electrically coupled to said electrodes for receiving location and orientation data from said electrodes and coupled to said transducer for receiving the image data from said transducer; and d) an imaging system coupled to said signal processing system for displaying an image generated from the image data and for simultaneously displaying a three dimensional context map of an interior heart geometry and highlighting a first surface on the context map corresponding to said first surface portion of the heart displayed in the image and a second surface on the context map corresponding to a second surface portion of the heart for which a second image was previously generated by the ultrasound transducer within an image of a second heart portion that is larger than and contains said first and second surface portions, whereby the imaged portion of the surface of the heart is displayed and simultaneously the location in the heart of that displayed surface portion is displayed. - View Dependent Claims (8, 9, 10, 11)
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12. A method of imaging the interior of a beating heart, comprising the steps of:
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a) positioning a catheter in the interior of a heart chamber, said catheter carrying multiple electrodes spaced from one another sufficiently to generate location and orientation data and said catheter having an ultrasonic transducer coupled to its distal end; b) applying orthogonal current across the heart to generate voltage signals from the electrodes to yield position and orientation data; c) with the ultrasonic transducer, generating a wave and sensing its echo to generate a first ultrasonic image of a first portion of a surface of the interior of the heart; d) displaying the first ultrasonic image and simultaneously highlighting on a three-dimensional context map of an interior heart geometry a first surface on the context map corresponding to the frame of the heart surface that is displayed in the first ultrasonic image; e) repositioning the catheter, while the first surface of the context map remains highlighted, such that the catheter yields a second ultrasonic image of a second portion of the surface of the interior of the heart, said repositioning being accomplished by observing the three-dimensional context map; and
,f) displaying the second ultrasonic image and simultaneously highlighting on the three-dimensional context map, while the first surface of the context map remains highlighted, a second surface on the context map corresponding to the frame of the heart surface that is displayed in the second ultrasonic image. - View Dependent Claims (13, 14)
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15. A system for navigating an ultrasound catheter to image a beating heart, comprising:
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a) a catheter system carrying sensor electrodes and an ultrasonic transducer; b) an ultrasound system operatively coupled to said transducer to generate a sound wave and to sense an echo wave to yield and capture ultrasound data for a first frame of the interior surface of a heart; c) an electroanatomical mapping system operatively coupled to said ultrasound system to generate a three-dimensional electroanatomical map of the interior of the heart; and d) an imaging system cooperatively coupled to the electroanatomical mapping system and the ultrasound system to display an ultrasound image of the first frame and the three-dimensional electroanatomical map of the interior of the heart and simultaneously highlight a first surface on the electroanatomical map corresponding to the location of the first frame and a second surface on the electroanatomical map corresponding to the location of a second frame of the interior surface of the heart for which ultrasound data was previously captured by the ultrasound system in addition to an ultrasound image of the first frame. - View Dependent Claims (16)
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Specification
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Current AssigneeSt. Jude Medical (Abbott Laboratories Incorporated)
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Original AssigneeSt. Jude Medical (Abbott Laboratories Incorporated)
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InventorsHauck, John A.
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Primary Examiner(s)Winakur; Eric F
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Assistant Examiner(s)BOR, HELENE CATHERINE
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Application NumberUS11/044,344Publication NumberTime in Patent Office2,077 DaysField of Search600/463, 600/424, 600/466US Class Current600/466CPC Class CodesA61B 2017/00243 cardiacA61B 2034/105 Modelling of the patient, e...A61B 2034/2051 Electromagnetic tracking sy...A61B 2034/2053 Tracking an applied voltage...A61B 2090/367 creating a 3D dataset from ...A61B 2090/378 using ultrasoundA61B 2090/3983 Reference marker arrangemen...A61B 2562/046 in a matrix arrayA61B 34/20 Surgical navigation systems...A61B 34/25 User interfaces for surgica...A61B 5/1076 for measuring dimensions in...A61B 5/287 Holders for multiple electr...A61B 5/6852 CathetersA61B 8/0841 for locating instrumentsA61B 8/0883 for diagnosis of the heartA61B 8/12 in body cavities or body tr...A61B 8/4254 using sensors mounted on th...A61B 8/463 characterised by displaying...A61B 8/466 adapted to display 3D data ...A61B 8/5223 for extracting a diagnostic...View All
