Method for the 3d modeling of a tubular structure
First Claim
1. A method for the 3D modeling of a three-dimensional tubular structure of an examination object from a number of 2D projection images (D) of the tubular structure (H) taken from different projection directions, comprising the steps:
- a) reconstruction of a 3D image (B) from the 2D projection images (D),b) selection of at least one 3D central line point (M0) in the 3D image (B), said 3D central line point being located in the tubular structure (H),c) segmentation of other 3D central line points (M) of the tubular structure (H) in the 3D image (B),d) forward projection of the 3D central line points (M), which have been segmented in the 3D image (B), into the 2D projection images (D′
),e) determination of border points of the tubular structure (H) in the 2D projection images (D′
) on the basis of 3D central line points (Z) that have been projected in, andf) back-projection of the border points from the 2D projection images (D′
) into the 3D image (B).
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Abstract
The invention provides a method for 3D modeling of a three-dimensional tubular structure of an examination object from 2D projection images (D) of the structure taken from different projection directions. The method has the following steps: reconstruction of a 3D image from the 2D projection images (D); selection of at least one 3D central line point (MO) in the 3D image, said 3D central line point being located in the structure; segmentation of 3D central line points (M) of the structure in the 3D image; forward projection of the 3D central line points (M), which have been segmented in the 3D image, into 2D projection images (D′); determination of border points of the structure in the 2D projection images (D′) on the basis of 3D central line points (Z) that have been projected in; and back-projection of the border points from the 2D projection image (D′) into the 3D image.
135 Citations
9 Claims
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1. A method for the 3D modeling of a three-dimensional tubular structure of an examination object from a number of 2D projection images (D) of the tubular structure (H) taken from different projection directions, comprising the steps:
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a) reconstruction of a 3D image (B) from the 2D projection images (D), b) selection of at least one 3D central line point (M0) in the 3D image (B), said 3D central line point being located in the tubular structure (H), c) segmentation of other 3D central line points (M) of the tubular structure (H) in the 3D image (B), d) forward projection of the 3D central line points (M), which have been segmented in the 3D image (B), into the 2D projection images (D′
),e) determination of border points of the tubular structure (H) in the 2D projection images (D′
) on the basis of 3D central line points (Z) that have been projected in, andf) back-projection of the border points from the 2D projection images (D′
) into the 3D image (B). - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A device for the 3D modeling of a three-dimensional tubular structure of an examination object from a number of 2D projection images (D) of the tubular structure (H) taken from different projection directions, comprising:
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a) a reconstruction unit for reconstructing a 3D image (B) from the 2D projection images (D), b) selection means for selecting at least one 3D central line point (M0) in the 3D image (B), said 3D central line point being located in the tubular structure (H), c) a segmentation unit for segmenting other 3D central line points (M) of the tubular structure (H) in the 3D image (B), d) a forward projection unit for the forward projection of the 3D central line points (M), which have been segmented in the 3D image (B), into the 2D projection images (D′
),e) a border point determination unit for determining border points of the tubular structure (H) in the 2D projection images (D′
) on the basis of the 3D central line points (Z) that have been projected in, andf) a back-projection unit for the back-projection of the border points from the 2D projection images (D′
) into the 3D image (B).
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9. A computer program embodied in a computer-readable medium and having computer programming means for instructing a computer to carry out the steps of the method:
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a) reconstruction of a 3D image (B) from the 2D projection images (D), b) selection of at least one 3D central line point (M0) in the 3D image (B), said 3D central line point being located in the tubular structure (H), c) segmentation of other 3D central line points (M) of the tubular structure (H) in the 3D image (B), d) forward projection of the 3D central line points (M), which have been segmented in the 3D image (B), into the 2D projection images (D′
),e) determination of border points of the tubular structure (H) in the 2D projection images (D′
) on the basis of 3D central line points (Z) that have been projected in, andf) back-projection of the border points from the 2D projection images (D′
) into the 3D image (B).
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Specification