Method and apparatus for visualizing anatomical structures
First Claim
Patent Images
1. A method for visualizing anatomical structures, the method comprising the steps of:
- (1) processing pre-acquired scanned patient-specific data so as to produce a virtual 3D model of anatomical structures of a patient, wherein processing is effected so that separate views of the patient'"'"'s bone and blood flow structures can be generated;
(2) positioning a C-arm fluoroscope with standard Anterior-Posterior (AP) orientation relative to the patient;
(3) conducting fluoroscopic imaging so as to provide real-time images of the patient'"'"'s bone structure;
(4) overlaying, on top of the fluoroscopic images, virtual images from the virtual 3D model, with those images representing only the patient'"'"'s bone structure;
(5) placing the virtual images of the patient'"'"'s bone structure generated from the virtual 3D model in registration with the fluoroscope images of the patient'"'"'s bone structure, whereby a coordinate system of the virtual 3D model is correlated to a coordinate system of the fluoroscope;
(6) imaging the patient'"'"'s bone structure using fluoroscopy so as to create a mask image of the patient'"'"'s bone structure;
(7) turning off the virtual images of the virtual bone structure and turning on the virtual images of the blood flow structure, so as to show the blood flow structure from the virtual 3D model overlaid on top of the fluoroscopic images in a semi-transparent mode, thereby providing a composite view simultaneously showing the patient'"'"'s blood flow structure from the virtual 3D model and the patient'"'"'s bone structure from the fluoroscopic images;
(8) using the mask image to subtract out the bone structure from the composite view, whereby to produce the virtual road map which will be used by the surgeon; and
(9) visualizing the virtual road map on a display monitor.
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Abstract
Apparatus and method for producing a virtual road map of a patient'"'"'s vascular anatomy comprising a virtual 3D model of the patient'"'"'s vascular and bony structure in proper registration with one another, a fluoroscope for providing real-time images of the bony structure of the patient, registration apparatus for placing the virtual 3D model in proper registration with the patient space of the fluoroscope, bone mask subtraction apparatus for generating a bone mask of the bony structure, and subtracting the same from the real-time images, whereby to create modified fluoroscope images omitting bony structure, and image generating apparatus for generating the virtual road map comprising a composite image combining (i) images of the virtual 3D structure representing the vascular structure, and (ii) modified fluoroscope images omitting bony structure, wherein the images of the virtual 3D structure representing vascular structure are in proper registration with the modified fluoroscope images omitting bony structure.
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Citations
12 Claims
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1. A method for visualizing anatomical structures, the method comprising the steps of:
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(1) processing pre-acquired scanned patient-specific data so as to produce a virtual 3D model of anatomical structures of a patient, wherein processing is effected so that separate views of the patient'"'"'s bone and blood flow structures can be generated; (2) positioning a C-arm fluoroscope with standard Anterior-Posterior (AP) orientation relative to the patient; (3) conducting fluoroscopic imaging so as to provide real-time images of the patient'"'"'s bone structure; (4) overlaying, on top of the fluoroscopic images, virtual images from the virtual 3D model, with those images representing only the patient'"'"'s bone structure; (5) placing the virtual images of the patient'"'"'s bone structure generated from the virtual 3D model in registration with the fluoroscope images of the patient'"'"'s bone structure, whereby a coordinate system of the virtual 3D model is correlated to a coordinate system of the fluoroscope; (6) imaging the patient'"'"'s bone structure using fluoroscopy so as to create a mask image of the patient'"'"'s bone structure; (7) turning off the virtual images of the virtual bone structure and turning on the virtual images of the blood flow structure, so as to show the blood flow structure from the virtual 3D model overlaid on top of the fluoroscopic images in a semi-transparent mode, thereby providing a composite view simultaneously showing the patient'"'"'s blood flow structure from the virtual 3D model and the patient'"'"'s bone structure from the fluoroscopic images; (8) using the mask image to subtract out the bone structure from the composite view, whereby to produce the virtual road map which will be used by the surgeon; and (9) visualizing the virtual road map on a display monitor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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Specification
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Current AssigneeAstute Imaging LLC
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Original AssigneeM2S, Inc. (Medstreaming, Inc.)
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InventorsSahin, Tuba, Chen, David
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Primary Examiner(s)Casler; Brian
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Assistant Examiner(s)MEHTA, PARIKHA SOLANKI
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Application NumberUS11/296,103Publication NumberTime in Patent Office1,630 DaysField of Search378/42, 382/128, 382/131, 382/285, 382293-300, 600424-427, 623/1.11US Class Current600/425CPC Class CodesA61B 2090/364 Correlation of different im...A61B 2090/376 using X-rays, e.g. fluoroscopyA61B 6/12 Arrangements for detecting ...A61B 6/4405 the apparatus being movable...A61B 6/4441 the rigid structure being a...A61B 6/466 adapted to display 3D dataA61B 6/481 involving the use of contra...A61B 6/504 for diagnosis of blood vess...A61B 6/5235 combining images from the s...A61B 90/36 Image-producing devices or ...
