초록 ▼

A medical imaging system for automatically positioning a structure of interest within a field of view (FOV) of an imaging detector comprises at least one imaging detector for detecting radiation. The imaging detector has a FOV and detects a first image while at a first system position with respect t

A medical imaging system for automatically positioning a structure of interest within a field of view (FOV) of an imaging detector comprises at least one imaging detector for detecting radiation. The imaging detector has a FOV and detects a first image while at a first system position with respect to a predetermined reference point. A structure detecting module detects a structure of interest within the first image and determines whether the structure of interest is within the FOV of the imaging detector. The structure detecting module determines a second system position with respect to the predetermined reference point at which the structure of interest will be positioned within the FOV of the imaging detector, and a controller moves the FOV of the imaging detector to the second system position.

대표청구항 ▼

What is claimed is: 1. A medical imaging system for automatically positioning a structure of interest within a field of view of an imaging detector, comprising: at least one imaging detector for detecting radiation, the imaging detector having a field of view (FOV), the imaging detector configured

What is claimed is: 1. A medical imaging system for automatically positioning a structure of interest within a field of view of an imaging detector, comprising: at least one imaging detector for detecting radiation, the imaging detector having a field of view (FOV), the imaging detector configured to detect a first image while at a first system position with respect to a predetermined reference point and to detect a second image at a second system position; a structure detecting module configured to automatically detect a structure of interest based on a count rate associated with the first image, the structure detecting module further configured to determine whether at least a portion of the structure of interest is within the FOV and to automatically determine a corresponding system position with respect to the predetermined reference point at which more of the structure of interest will be positioned within the FOV of the imaging detector at the corresponding system position based on the count rates associated with the first and second images; and a controller configured to move the FOV of the imaging detector to the corresponding system position. 2. The medical imaging system of claim 1, further comprising a patient table, wherein the first and second system positions further comprise first and second table positions, the controller further configured to move the patient table to the second table position. 3. The medical imaging system of claim 1, further comprising a gantry, a patient table, and a multi-pinhole collimator, the controller further configured to move at least one of the gantry, the patient table, the multi-pinhole collimator and the at least one imaging detector to the corresponding system position. 4. The medical imaging system of claim 1, further comprising a patient table, wherein the first system position further comprises at least one of a first longitudinal patient table position and a first vertical patient table position, and wherein the corresponding system position further comprises at least one of a second longitudinal patient table position and a second vertical patient table position. 5. The medical imaging system of claim 1, further comprising a memory configured to store the corresponding system position, the controller further configured to retrieve the corresponding system position from the memory and automatically position the FOV of the imaging detector based on the corresponding system position before acquiring at least one subsequent image. 6. The medical imaging system of claim 1, wherein the first image further comprises a persistence image. 7. The medical imaging system of claim 1, wherein the at least one imaging detector further comprises at least first and second gamma cameras. 8. The medical imaging system of claim 1, wherein the at least one imaging detector is configured to acquire at least one of gamma rays and x-rays. 9. The medical imaging system of claim 1, wherein the structure detecting module is further configured to determine a maximum count rate based on the first and second images and move a patient table horizontally to the corresponding system position based on the maximum count rate. 10. The medical imaging system of claim 1, wherein the structure detecting module is further configured to determine a maximum count rate based on the first and second images and move a patient table vertically to the corresponding system position based on the maximum count rate. 11. The medical imaging system of claim 1, wherein the controller is further configured to automatically stop a movement of a patient table when the structure of interest is fully within the field of view. 12. The medical imaging system of claim 1, wherein the structure detecting module is further configured to: determine when the structure of interest is within a predetermined distance of the at least one imaging detector; and automatically stop a movement of a patient table when the structure of interest is within the predetermined distance. 13. The medical imaging system of claim 1, further comprising a multi-pinhole collimator, the controller is further configured to modify an imaging position of the at least one imaging detector based on at least one of a distance between the at least one imaging detector and the pinhole collimator and a distance between the collimator and the structure of interest. 14. A medical imaging system for automatically positioning a structure of interest within a field of view of an imaging detector, comprising: at least one imaging detector for detecting radiation, the imaging detector having a field of view (FOV), the imaging detector configured to detect a first image while at a first system position with respect to a predetermined reference point and to detect a second image at a second system position; a structure detecting module configured to automatically detect a structure of interest based on a count rate associated with the first image, the structure detecting module further configured to determine whether at least a portion of the structure of interest is within the FOV and to automatically determine whether more of the structure of interest is within the FOV at the second system position based on a count rate associated with the second image and to automatically determine a third system position at which the structure of interest will be positioned closer to a center of the FOV; and a controller configured to move the FOV of the imaging detector to the third system position. 15. A method for automatically positioning a structure of interest within a field of view of an imaging detector, comprising: detecting a first image with an imaging detector, the first image comprising a structure of interest within a patient, the imaging detector having a field of view (FOV), the imaging detector being located at a first system position with respect to a predetermined reference point; automatically positioning the FOV of the imaging detector at a second system position with a controller, the first and second system positions being different from one another; detecting a second image with the imaging detector at the second system position; and comparing the first and second images with a structure detecting module to identify a corresponding system position at which more of the structure of interest is positioned within the FOV, wherein the first and second images further comprise persistence images, wherein the first and second images have first and second count rates, respectively, wherein the comparing step further comprises identifying a higher count rate between the first and second count rates. 16. The method of claim 15, wherein the second system position identifies a position of a patient table configured to support the patient, the automatically positioning step further comprising moving the patient table relative to the FOV of the imaging detector to locate the patient table at the second system position. 17. The method of claim 15, wherein the second system position identifies a position of the imaging detector, the automatically positioning step further comprising moving the imaging detector relative to the patient to locate the imaging detector at the second position. 18. The method of claim 15, further comprising: storing a patient system position in a memory, the patient system position being based on the corresponding system position, the patient system position being associated with the patient; and retrieving the patient system position from the memory to locate the FOV of the imaging detector and the structure of interest within the patient relative to one another before acquiring at least one subsequent image. 19. The method of claim 15, further comprising automatically positioning at least one of the patient and the imaging detector at a third position with the controller, the second and third positions being different from one another; detecting a third image with the imaging detector at the third position; and comparing the second and third images with the structure detecting module to identify the corresponding system position at which more of the structure of interest is positioned within the FOV. 20. The method of claim 15, the comparing step identifying the corresponding system position based on the structure of interest being positioned closer to a center of the FOV. 21. The method of claim 15, wherein the imaging detector is configured to detect at least one of gamma rays and x-rays. 22. The method of claim 15, wherein the automatically positioning further comprises iteratively positioning at least two pinholes within a multi-pinhole collimator at different positions with respect to each other, and wherein the comparing further comprises comparing images detected at the different positions to identify an average optimal system position based on count rates associated with each of the images. 23. A method for automatically positioning a structure of interest within a field of view of an imaging detector, comprising: detecting a first image with an imaging detector, the first image comprising a structure of interest within a patient, the imaging detector having a field of view (FOV), the imaging detector being located at a first system position with respect to a predetermined reference point; automatically positioning the FOV of the imaging detector at a second system position with a controller, the first and second system positions being different from one another; detecting a second image with the imaging detector at the second system position; and comparing the first and second images with a structure detecting module to identify a corresponding system position at which more of the structure of interest is positioned within the FOV, wherein the automatically positioning further comprises iteratively positioning at least one of the imaging detector, a patient table, and a multi-pinhole collimator at different positions with respect to each other, and wherein the comparing further comprises comparing images detected at the different positions to identify a system position that corresponds to a highest count rate.