Fast mapping of volumetric density data onto a two-dimensional screen
First Claim
1. A method for constructing from volumetric CT or MRI scan data of a patient region, a virtual two-dimensional fluoroscopic or shadowgraph image of the patient region as seen from a selected point in space, comprising(a) selecting a point in space representing a virtual fluoroscopic irradiation source, (b) defining a plurality of rays extending between the source point and each of a plurality of points in a two-dimensional XY array of points, where (i) the array points correspond to pixels in an XY pixel array in a display screen, (ii) each pixel in the display screen has multiple N-bit registers for receiving digitized values for each of multiple colors, (iii) the scan data is composed of voxels having defined coordinates and associated M-bit tissue-density values, and (iv) at least some of the rays pass through a plurality of such voxels in the patient target region, (c) for each ray, distributing the M bits of the density values of voxels along that ray among the multiple N-bit registers of the associated pixel, such that one or more bit positions of each M-bit value is assigned to a selected register of that pixel, (d) for each ray, summing the M-bit values of the voxels along that ray by (i) individually summing the one or more bit-position values in each associated pixel register, and (ii) determining the sum of the M-bit values along the associated ray from the values in the individual registers, and (e) displaying the image constructed of gray-scale values representing the summed M-bit density values at each pixel in said display screen.
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Abstract
A method and system for constructing from volumetric CT or MRI scan data of a patient region, a virtual two-dimensional fluoroscopic image of the patient region as seen from a selected point in space are disclosed. In practicing the method, a plurality of rays are constructed between a selected view point and each of a plurality of points in an XY array, where at least some of the rays pass through the patient target region, the points in the XY array correspond to the XY array of pixels in a display screen, and each pixel in the display screen includes multiple N-bit registers for receiving digital-scale values for each of multiple colors. For each pixel element, a sum of all M-bit density values associated with voxels along a ray extending from the selected point to the associated pixel element is calculated. The summing is carried out by distributing the M bits in the voxel density values among the multiple N-bit registers of that pixel, such that such that one or more bit positions of each M-bit value is assigned to a selected register. The image constructed of gray-scale values representing the summed M-bit density values at each pixel in the screen is displayed to the user.
84 Citations
15 Claims
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1. A method for constructing from volumetric CT or MRI scan data of a patient region, a virtual two-dimensional fluoroscopic or shadowgraph image of the patient region as seen from a selected point in space, comprising
(a) selecting a point in space representing a virtual fluoroscopic irradiation source, (b) defining a plurality of rays extending between the source point and each of a plurality of points in a two-dimensional XY array of points, where (i) the array points correspond to pixels in an XY pixel array in a display screen, (ii) each pixel in the display screen has multiple N-bit registers for receiving digitized values for each of multiple colors, (iii) the scan data is composed of voxels having defined coordinates and associated M-bit tissue-density values, and (iv) at least some of the rays pass through a plurality of such voxels in the patient target region, (c) for each ray, distributing the M bits of the density values of voxels along that ray among the multiple N-bit registers of the associated pixel, such that one or more bit positions of each M-bit value is assigned to a selected register of that pixel, (d) for each ray, summing the M-bit values of the voxels along that ray by (i) individually summing the one or more bit-position values in each associated pixel register, and (ii) determining the sum of the M-bit values along the associated ray from the values in the individual registers, and (e) displaying the image constructed of gray-scale values representing the summed M-bit density values at each pixel in said display screen.
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4. A system for constructing from volumetric CT or MRI scan data of a patient region, a virtual two-dimensional fluoroscopic image of the patient region as seen from a selected point in space, comprising
(a) a scan-data file for storing, in digital form, volumetric scan data of a surgical site of a patient, where the scan data is composed of voxels having defined coordinates and associated M-bit tissue-density values, (b) a display screen containing a two-dimensional XY array of pixel elements, each element containing multiple N-bit registers for receiving digital-scale values for each of multiple colors, and (c) a computational device operatively connected to the data file and display screen for (i) defining a plurality of rays extending between a selected source point and each of a plurality of points in a two-dimensional XY array, where (ia) the array points correspond to array pixels in the display screen, and (ib) at least some of the rays pass through a plurality of scan-date voxels in the patient target region, (ii) for each ray, distributing the M bits of the voxel density values among the multiple N-bit registers of the associated pixel, such that one or more bit positions of each M-bit value is assigned to a selected register of that pixel, (iii) for each ray, summing the M-bit values of the voxels along that ray by (iiia) individually summing the one or more bit-position values in each associated pixel register, and (iiib) determining the sum of the M-bit values along the associated ray from the values in the individual registers, and (iv) applying the summer tissue-density values along each ray to the associated pixel in the display screen.
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5. A method of constructing a virtual two-dimensional image of a patient region as seen from a selected point in space from volumetric CT or MRI scan data of the patient region, the method comprising:
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selecting a point in space representing a virtual fluoroscopic irradiation source;
defining a plurality of rays extending between the point in space and each of a plurality of points in a two-dimensional XY array of points;
distributing M-bits of tissue-density values of voxels along each ray among multiple N-bit registers of an associated pixel;
summing the M-bit values of the voxels along each ray; and
displaying an image constructed of gray-scale values representing the summed M-bit density values at each pixel in a display screen. - View Dependent Claims (6, 7, 8)
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9. A system for constructing a virtual two-dimensional image of a patient region as seen from a selected point in space from volumetric CT or MRI scan data of the patient region, the system comprising:
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a scan-data file for digitally storing volumetric scan data of a surgical site of a patient;
a display screen containing two-dimensional XY array of pixel elements; and
a computational device operatively connected to the scan-data file and the display screen, said computational device defining a plurality of rays extending between a selected source point and each of a plurality of points in a two-dimensional XY array and said computational device distributing M bits of voxel density values among multiple N-bit registers of an associated pixel, such that one or more bit positions of each M-bit value is assigned to a selected register of that pixel. - View Dependent Claims (10, 11, 12, 13)
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14. A method of planning a surgical procedure, comprising:
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forming a virtual two-dimensional images from at least one of volumetric CT and MRI data by;
(a) selecting point in space representing a virtual fluoroscopic irradiation source, (b) defining a plurality of rays extending between the point in space and each of a plurality of point in a two-dimensional XY array points, (c) distributing M-bits of tissue-density values of voxels along each ray among multiple N-bit registers of an associated pixel, and (d) summing the M-bit values of the voxels along each ray;
correlating the virtual two-dimensional images to at least one of CT and MRI images; and
providing a virtual path of said surgical procedure through said correlating.- View Dependent Claims (15)
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Specification