Registration process for myocardial images
First Claim
1. A method for registration of a first image of a first organ and a second image of a second organ having a second organ surface, comprising the steps of:
- obtaining a spatial count density corresponding roughly to a density of said first organ;
using a first-order spatial derivative of said spatial count density to determine a first organ surface;
performing a rigid transformation of said first organ surface to provide a rigidly transformed organ surface so as to substantially minimize a first measure of distance between said rigidly transformed organ surface and said second organ surface;
performing a global affine transformation of said rigidly transformed organ surface to provide an affine transformed organ surface so as to substantially minimize a second measure of distance between said affine transformed organ surface and said second organ surface;
performing a redistribution of said initial spatial count density according to said rigid transformation and said global affine transformation to provide a resulting spatial count density within said affine transformed organ surface where a first sum over space of said initial spatial count density is approximately equal to a second sum over space of said resulting spatial count density.
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Accused Products
Abstract
Registration of organ images, such as myocardial images obtained by myocardial perfusion scintigraphy, is performed by an elastic transformation which includes a rigid transformation, a global affine transformation, and local transformations. The elastic transformation eliminates normal morphological variances such as variances in orientation, size and shape, so that the remaining differences represent important functional differences. The method may be used to register a patient'"'"'s organ against a template obtained by averaging organ images from many patients. For scintigraphic images the boundary of the organ is determined by a "segmentation" procedure involving the analysis of spatial derivatives of the count density. After the elastic transformations of the surface of the organ, the scintigraphic count densities are redistributed. The method decreases the effects of operator variability and increases the reliability of diagnoses of organ irregularities.
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Citations
7 Claims
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1. A method for registration of a first image of a first organ and a second image of a second organ having a second organ surface, comprising the steps of:
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obtaining a spatial count density corresponding roughly to a density of said first organ; using a first-order spatial derivative of said spatial count density to determine a first organ surface; performing a rigid transformation of said first organ surface to provide a rigidly transformed organ surface so as to substantially minimize a first measure of distance between said rigidly transformed organ surface and said second organ surface; performing a global affine transformation of said rigidly transformed organ surface to provide an affine transformed organ surface so as to substantially minimize a second measure of distance between said affine transformed organ surface and said second organ surface; performing a redistribution of said initial spatial count density according to said rigid transformation and said global affine transformation to provide a resulting spatial count density within said affine transformed organ surface where a first sum over space of said initial spatial count density is approximately equal to a second sum over space of said resulting spatial count density. - View Dependent Claims (2, 3)
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4. A method for registration of a first image of a first organ and a second image of a second organ having a second organ surface, said first organ having a spatial count density corresponding roughly to a density of said first organ, comprising the steps of:
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segmentation of said first organ from tissue surrounding said first organ to provide a first organ surface using minima of first-order spatial derivatives of said spatial count density; performing a rigid transformation of said first organ surface to provide a first rigidly transformed organ surface so as to substantially minimize a first measure of distance between said first rigidly transformed organ surface and said second organ surface; and performing a global affine transformation of said first rigidly transformed organ surface to provide a first affine transformed organ surface so as to substantially minimize a second measure of distance between said first affine transformed organ surface and said second organ surface.
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5. A method for registration of a first image of a first organ and a second image of a second organ having a second organ surface, said first organ having a spatial count density corresponding roughly to a density of said first organ, comprising the steps of:
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segmentation of said first organ from tissue surrounding said first organ to provide a first organ surface; performing a rigid transformation of said first organ surface to provide a first rigidly transformed organ surface so as to substantially minimize a first measure of distance between said first rigidly transformed organ surface and said second organ surface; performing a global affine transformation of said first rigidly transformed organ surface to provide a first affine transformed organ surface so as to substantially minimize a second measure of distance between said first affine transformed organ surface and said second organ surface, said second distance measure incorporating curvature information from said first rigidly transformed organ surface to match locally similar points of said first rigidly transformed organ surface to said second organ surface; and performing at least one local transformation of said first affine transformed organ surface using a spline function to provide a modified first affine transformed organ surface so as to substantially minimize a third measure of distance between said modified first affine transformed organ surface and said second organ surface. - View Dependent Claims (6, 7)
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Specification