Anatomical visualization system
First Claim
Patent Images
1. A system for determining patient-specific anatomical dimensions for structures which have a branching configuration using scanned 2-D image data, said system comprising:
- a set of scanned 2-D images assembled into a 3-D database, said 3-D database comprising a volumetric data set;
means for segmenting said volumetric data set into a set of 3-D locations corresponding to a specific anatomical structure to be measured;
means for defining a plurality of 2-D image planes parallel to and spaced from one another and transversely intersecting said set of 3-D locations corresponding to said specific anatomical structure, each of said 2-D image planes including a set of co-ordinates located within said anatomical structure to be measured;
means for specifying, for each branching structure contained within said set of 3-D locations corresponding to said specific anatomical structure, a branch line in said volumetric data set that uniquely indicates said branch structure, said branch line being specified by a start location and an end location disposed in selected first and second ones of said plurality of 2-D image planes, respectively;
means for calculating, for each branching structure contained within said set of 3-D locations corresponding to said specific anatomical structure, a centroid path in said volumetric data set for that branching structure, said centroid path being determined by averaging said set of co-ordinates located within each of said 2-D image planes between said first and said second ones of said plurality of image planes so as to define a centroid for the portion of said branch structure contained in that particular 2-D image plane, and applying a curve-fitting algorithm to said centroids so as to supply data for any portions of said set of 3-D locations corresponding to said specific anatomical structure which may lie between said 2-D image planes, and for smoothing out noise that may occur in said system, whereby to create resulting space curves; and
,means for calculating said desired anatomical dimensions from said resulting space curves.
0 Assignments
0 Petitions
Accused Products
Abstract
An anatomical visualization system is provided which includes a first database comprising a plurality of 2-D slice images generated by scanning a structure. The 2D slice images are stored in a first data format. A second database comprising a 3-D computer model of the scanned structure is also provided. The 3-D computer model includes a first software object defined by a 3-D geometry database. Apparatus is provided for inserting a second software object into the 3-D computer model so as to augment the 3-D computer model. The second software object is defined by a 3-D geometry database, and includes a planar surface. Apparatus for determining the specific 2-D slice image associated with the position of the planar surface of the second software object within the augmented 3-D computer model are provided in a preferred embodiment. Also provided are apparatus for texture mapping the specific 2-D slice image onto the planar surface of the second software object. Display apparatus is provided for displaying an image of the augmented 3-D computer model so as to simultaneously provide a view of the first software object and the specific 2-D slice image texture mapped onto the planar surface of the second software object. In another form of the invention, apparatus and method are provided for determining patient-specific anatomical dimensions using appropriate scanned 2-D slice image information.
143 Citations
6 Claims
-
1. A system for determining patient-specific anatomical dimensions for structures which have a branching configuration using scanned 2-D image data, said system comprising:
-
a set of scanned 2-D images assembled into a 3-D database, said 3-D database comprising a volumetric data set; means for segmenting said volumetric data set into a set of 3-D locations corresponding to a specific anatomical structure to be measured; means for defining a plurality of 2-D image planes parallel to and spaced from one another and transversely intersecting said set of 3-D locations corresponding to said specific anatomical structure, each of said 2-D image planes including a set of co-ordinates located within said anatomical structure to be measured; means for specifying, for each branching structure contained within said set of 3-D locations corresponding to said specific anatomical structure, a branch line in said volumetric data set that uniquely indicates said branch structure, said branch line being specified by a start location and an end location disposed in selected first and second ones of said plurality of 2-D image planes, respectively; means for calculating, for each branching structure contained within said set of 3-D locations corresponding to said specific anatomical structure, a centroid path in said volumetric data set for that branching structure, said centroid path being determined by averaging said set of co-ordinates located within each of said 2-D image planes between said first and said second ones of said plurality of image planes so as to define a centroid for the portion of said branch structure contained in that particular 2-D image plane, and applying a curve-fitting algorithm to said centroids so as to supply data for any portions of said set of 3-D locations corresponding to said specific anatomical structure which may lie between said 2-D image planes, and for smoothing out noise that may occur in said system, whereby to create resulting space curves; and
,means for calculating said desired anatomical dimensions from said resulting space curves. - View Dependent Claims (2, 3)
-
-
4. A method for calculating patient-specific anatomical dimensions for structures which have a branching configuration by using 2-D image data, said method comprising the steps of:
-
(A) assembling a set of scanned 2-D images into a 3-D database, said 3-D database comprising a volumetric data set; (B) segmenting said volumetric data set into a set of 3-D locations corresponding to a specific anatomical structure to be measured; (C) defining a plurality of 2-D image planes parallel to and spaced from one another and transversely intersecting said set of 3-D locations corresponding to said specific anatomical structure, each of said 2-D image planes including a set of co-ordinates located within said anatomical structure to be measured; (D) specifying, for each branching structure contained within said set of 3-D locations corresponding to said specific anatomical structure, a branch line in said volumetric data set that uniquely indicates said branch structure, said branch line being specified by a start location and an end location on two of said set of scanned 2-D images disposed in selected first and second ones of said plurality of 2-D image planes, respectively; (E) calculating, for each branching structure contained within said set of 3-D locations corresponding to said specific anatomical structure, a centroid path in said volumetric data set for that branching structure, said centroid path being determined by averaging said set of co-ordinates located within each of said 2-D image planes between said first and said second ones of said plurality of image planes so as to define a centroid for the portion of said branch structure contained in that particular 2-D image plane, and applying a curve-fitting algorithm to said centroids so as to supply data for any portions of said set of 3-D locations corresponding to said specific anatomical structure which may lie between said 2-D image planes, and for smoothing out noise that may occur in said system, whereby to create resulting space curves; and
,(F) calculating said desired anatomical dimensions from said resulting space curves. - View Dependent Claims (5, 6)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeMedical Media Systems
-
Original AssigneeMedical Media Systems
-
InventorsPieper, Steven D.
-
Primary Examiner(s)Chang, Jon
-
Assistant Examiner(s)Patel, Jayanti K.
-
Application NumberUS09/084,637Time in Patent Office910 DaysField of Search250/363.04, 378/4, 378/21-27, 378/90, 382/128-134, 600/425, 600/437, 600/443, 600/456, 434/267US Class Current382/128CPC Class CodesG06T 17/00 Three dimensional [3D] mode...G06T 19/00 Manipulating 3D models or i...G06T 2200/24 involving graphical user in...G06T 2207/30101 Blood vessel; Artery; Vein;...G06T 2210/41 MedicalG06T 2219/028 Multiple view windows (top-...G06T 2219/2012 Colour editing, changing, o...G06T 7/11 Region-based segmentationG06T 7/66 of image moments or centre ...G16H 30/40 for processing medical imag...G16H 50/50 for simulation or modelling...
