Abstract: Methods and systems for combining a plurality of radiographic images. Software can be used to provide various stitching and blending methods to join first and second images into a composite, larger image.
Type:
Grant
Filed:
February 1, 2005
Date of Patent:
January 19, 2010
Assignee:
Cedara Software (USA) Limited
Inventors:
Somchai Kreang-Arekul, Arkady Gliner, Leon Kaufman
Abstract: Methods and systems for intensity/brightness matching of a plurality of radiographic images. Software can be used to provide various stitching and blending methods to join first and second images into a composite, larger image before or after the intensity/brightness of the radiographic images are modified.
Abstract: Methods and devices for improving the machine-to-machine and temporal (e.g., inter and intra-machine) and database consistency of coronary calcium scoring by applying a filtering algorithm that sharpens and/or smoothes the image so as to return a filtered image having a spatial resolution of a certain reference value.
Abstract: Methods and software for self-gating a set of images. In exemplary embodiments, a fundamental heart frequency of the patient can be measured without the use of an ECG signal. In one method, the fundamental heart frequency can be determined by analyzing the size of the heart in the images. In another method, the fundamental heart frequency can be determined by applying a Fourier Transform. The measured fundamental heart frequency can thereafter be used to select slice images from the image scan for creation of a sagittal or coronal projection image. In exemplary embodiments, the resultant projection image can be used for coronary calcium detection and scoring.
Abstract: Methods and software for self-gating a set of images. In exemplary embodiments, a fundamental heart frequency of the patient can be measured without the use of an ECG signal. In one method, the fundamental heart frequency can be determined by analyzing the size of the heart in the images. In another method, the fundamental heart frequency can be determined by applying a Fourier Transform. The measured fundamental heart frequency can thereafter be used to select slice images from the image scan for creation of a sagittal or coronal projection image. In exemplary embodiments, the resultant projection image can be used for coronary calcium detection and scoring.