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    • 1. 发明授权
    • Method and system for prospective gating using multiple inputs
    • 使用多种投入的前瞻性门控的方法和系统
    • US08064983B2
    • 2011-11-22
    • US10723716
    • 2003-11-26
    • Prathyusha K. SallaGopal B. AvinashCherik Bulkes
    • Prathyusha K. SallaGopal B. AvinashCherik Bulkes
    • A61B5/05
    • A61B6/541A61B5/0037A61B5/04A61B5/055A61B5/1107A61B5/113A61B5/721A61B5/7289A61B5/7292A61B6/5288
    • One or more techniques are provided for determining the overall motion of an organ of interest relative to a viewer or imager. Motion data is acquired for the organ of interest and/or for one or more proximate organs using sensor-based and/or image data-based techniques. The sensor-based techniques may include electrical and non-electrical techniques. The image data-based techniques may include both pre-acquisition and acquisition image data. The motion data for the organ of interest and proximate organs may be used to determine one or more quiescent periods corresponding to intervals of minimal motion for the organ of interest and the proximate organs. The one or more quiescent periods may be used to determine one or more gating points that may be used prospectively, i.e., during image acquisition. In addition, the one or more quiescent periods may be used to determine one or more motion compensation factors that may be used during processing and reconstruction of the acquired image data. The gating points and motion compensation factors may be used, separately or together, to reduce motion-related artifacts in the reconstructed images.
    • 提供了一种或多种技术来确定感兴趣的器官相对于观看者或成像器的整体运动。 使用基于传感器和/或图像数据的技术为感兴趣的器官和/或对于一个或多个近端器官获取运动数据。 基于传感器的技术可以包括电气和非电气技术。 基于图像数据的技术可以包括预采集和采集图像数据。 感兴趣的器官和邻近器官的运动数据可用于确定对应于感兴趣器官和最近器官的最小运动的间隔的一个或多个静止期。 可以使用一个或多个静止周期来确定可以预期使用的即一个图像采集期间的一个或多个门控点。 此外,一个或多个静止周期可以用于确定在所获取的图像数据的处理和重建期间可以使用的一个或多个运动补偿因子。 门控点和运动补偿因子可以单独地或一起使用以减少重建图像中的运动相关假象。
    • 4. 发明授权
    • Method and system for retrospective gating using multiple inputs
    • 使用多个输入回溯门控的方法和系统
    • US08285359B2
    • 2012-10-09
    • US10723894
    • 2003-11-26
    • Prathyusha K. SallaGopal B. AvinashCherik Bulkes
    • Prathyusha K. SallaGopal B. AvinashCherik Bulkes
    • A61B5/055
    • A61B6/541A61B5/0037A61B5/7289A61B5/7292A61B6/503A61B6/5288A61B8/0883A61B8/5284
    • One or more techniques are provided for determining the overall motion of an organ of interest relative to a viewer or imager. Motion data is acquired for the organ of interest and/or for one or more proximate organs using sensor-based and/or image data-based techniques. The sensor-based techniques may include electrical and non-electrical techniques. The image data-based techniques may include both pre-acquisition and acquisition image data. The motion data for the organ of interest and proximate organs may be used to determine one or more quiescent periods corresponding to intervals of minimal motion for the organ of interest and the proximate organs, which may be used to determine one or more gating points that may be used retrospectively, as well as one or more motion compensation factors that may be used to reduce motion-related artifacts during processing and reconstruction of the acquired image data.
    • 提供了一种或多种技术来确定感兴趣的器官相对于观看者或成像器的整体运动。 使用基于传感器和/或图像数据的技术为感兴趣的器官和/或对于一个或多个近端器官获取运动数据。 基于传感器的技术可以包括电气和非电气技术。 基于图像数据的技术可以包括预采集和采集图像数据。 可以使用感兴趣的器官和邻近器官的运动数据来确定对应于感兴趣的器官和邻近器官的最小运动的间隔的一个或多个静止期,其可以用于确定一个或多个选通点 追溯使用,以及可以用于在所获取的图像数据的处理和重构期间减少运动相关假象的一个或多个运动补偿因子。
    • 9. 发明授权
    • Method and system for composite gating using multiple inputs
    • 多输入复合门控方法与系统
    • US07756565B2
    • 2010-07-13
    • US10723857
    • 2003-11-26
    • Prathyusha K. SallaGopal B. AvinashCherik Bulkes
    • Prathyusha K. SallaGopal B. AvinashCherik Bulkes
    • A61B5/05
    • A61B6/541A61B5/0037A61B5/7285A61B5/7289A61B5/7292A61B6/503G01R33/5673
    • One or more techniques are provided for determining the overall motion of an organ of interest relative to a viewer or imager. Motion data is acquired for the organ of interest and/or for one or more proximate organs using sensor-based and/or image data-based techniques. The sensor-based techniques may include electrical and non-electrical techniques. The image data-based techniques may include both pre-acquisition and acquisition image data. The motion data for the organ of interest and proximate organs may be used to determine one or more quiescent periods corresponding to intervals of minimal motion for the organ of interest and the proximate organs. The one or more quiescent periods may be used to determine one or more gating points that may be used prospectively, i.e., during image acquisition, and retrospectively, i.e., after image acquisition. In addition, the one or more quiescent periods may be used to determine one or more motion compensation factors that may be used during processing and reconstruction of the acquired image data. The gating points and motion compensation factors may be used, separately or together, to reduce motion-related artifacts in the reconstructed images.
    • 提供了一种或多种技术来确定感兴趣的器官相对于观看者或成像器的整体运动。 使用基于传感器和/或图像数据的技术为感兴趣的器官和/或对于一个或多个近端器官获取运动数据。 基于传感器的技术可以包括电气和非电气技术。 基于图像数据的技术可以包括预采集和采集图像数据。 感兴趣的器官和邻近器官的运动数据可用于确定对应于感兴趣器官和最近器官的最小运动的间隔的一个或多个静止期。 可以使用一个或多个静止周期来确定可以预期使用的即一个或多个选通点,即,在图像采集期间,以及追溯地,即在图像采集之后。 此外,一个或多个静止周期可以用于确定在所获取的图像数据的处理和重建期间可以使用的一个或多个运动补偿因子。 门控点和运动补偿因子可以单独地或一起使用以减少重建图像中的运动相关假象。