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    • 1. 发明授权
    • Method and system for PET image reconstruction using portion of event data
    • 使用事件数据部分进行PET图像重建的方法和系统
    • US08750587B2
    • 2014-06-10
    • US12091752
    • 2006-10-30
    • Daniel GagnonJeffrey A. Kolthammer
    • Daniel GagnonJeffrey A. Kolthammer
    • A61B6/03
    • A61B6/037G06T11/006
    • A method and system for use in positron emission tomography, wherein a list-based reconstructor means (129) is configured to generate first portion volumetric data responsive to a first portion of a plurality of positron annihilation events detected during a positron emission tomography scan; generate a human-readable image indicative of the first portion volumetric data; use a list-based reconstruction technique to generate composite volumetric data responsive to the first portion volumetric data and a second portion of the plurality of positron annihilation events; and generate a composite human-readable image indicative of the composite volumetric data. In another aspect the reconstructor (129) is configured to selecting first or second portion event quantities responsive to one or more parameters including image definition requirements and processing time requirements.
    • 一种用于正电子发射断层摄影的方法和系统,其中基于列表的重建器装置(129)被配置为响应于在正电子发射断层摄影扫描期间检测到的多个正电子湮灭事件的第一部分而产生第一部分体积数据; 生成指示第一部分体积数据的人类可读图像; 使用基于列表的重建技术来响应于第一部分体积数据和多个正电子湮灭事件的第二部分来生成复合体积数据; 并生成指示复合体积数据的复合人类可读图像。 在另一方面,重建器(129)被配置为响应于包括图像定义要求和处理时间要求的一个或多个参数来选择第一或第二部分事件量。
    • 2. 发明申请
    • Method and System for Pet Image Reconstruction Using Portion of Event Data
    • 使用部分事件数据进行宠物图像重建的方法和系统
    • US20080285828A1
    • 2008-11-20
    • US12091752
    • 2006-10-30
    • Daniel GagnonJeffrey A. Kolthammer
    • Daniel GagnonJeffrey A. Kolthammer
    • G06K9/00
    • A61B6/037G06T11/006
    • A method and system for use in positron emission tomography, wherein a list-based reconstructor means (129) is configured to generate first portion volumetric data responsive to a first portion of a plurality of positron annihilation events detected during a positron emission tomography scan; generate a human-readable image indicative of the first portion volumetric data; use a list-based reconstruction technique to generate composite volumetric data responsive to the first portion volumetric data and a second portion of the plurality of positron annihilation events; and generate a composite human-readable image indicative of the composite volumetric data. In another aspect the reconstructor (129) is configured to selecting first or second portion event quantities responsive to one or more parameters including image definition requirements and processing time requirements.
    • 一种用于正电子发射断层摄影的方法和系统,其中基于列表的重建器装置(129)被配置为响应于在正电子发射断层摄影扫描期间检测到的多个正电子湮灭事件的第一部分而产生第一部分体积数据; 生成指示第一部分体积数据的人类可读图像; 使用基于列表的重建技术来响应于第一部分体积数据和多个正电子湮灭事件的第二部分来生成复合体积数据; 并生成指示复合体积数据的复合人类可读图像。 在另一方面,重建器(129)被配置为响应于包括图像定义要求和处理时间要求的一个或多个参数来选择第一或第二部分事件量。
    • 3. 发明授权
    • Geometry for PET imaging
    • PET成像几何
    • US09207333B2
    • 2015-12-08
    • US13091761
    • 2011-04-21
    • Daniel Gagnon
    • Daniel Gagnon
    • G01T1/164G01T1/29A61B6/03
    • G01T1/2985A61B6/037
    • A positron emission tomography (PET) scanner, including a first detector portion arranged circumferentially around a patient pallet, the first detector portion having a predetermined axial extent and transaxially subtending more than 180 degrees, but less than 360 degrees with respect to a central axis of the scanner defined by the first detector portion; and a second detector portion arranged separately from and opposing the first detector section, the second detector portion having a radius of curvature smaller than a radius of curvature of the first detector portion, wherein the second detector portion transaxially subtends less than 180 degrees with respect to the central axis of the scanner.
    • 正电子发射断层摄影(PET)扫描仪,包括围绕患者托盘周向布置的第一检测器部分,第一检测器部分具有预定的轴向范围,并且相对于中心轴线的轴向轴向对角超过180度但小于360度 所述扫描仪由所述第一检测器部分限定; 以及第二检测器部分,其与第一检测器部分分开设置并相对于第二检测器部分,第二检测器部分具有小于第一检测器部分的曲率半径的曲率半径,其中第二检测器部分相对于 扫描仪的中心轴。
    • 6. 发明授权
    • Regional reconstruction and quantitative assessment in list mode PET imaging
    • 列表模式PET成像中的区域重建和定量评估
    • US08660636B2
    • 2014-02-25
    • US13145115
    • 2009-12-23
    • Daniel GagnonPiotr J. Maniawski
    • Daniel GagnonPiotr J. Maniawski
    • A61B5/00
    • G06T11/006A61B6/037
    • A method for reconstructing list mode data comprises: reconstructing all list mode data of a list mode data set (30, 160) to generate a first reconstructed image (32, 62); selecting a sub-set of the list mode data set; and reconstructing the sub-set of the list mode data set to generate an enhanced reconstructed image (84, 86). An image generation system comprises: a reconstruction module (24) configured to perform a standard reconstruction of a list mode data set to generate a standard reconstructed image (32, 62); and a re-reconstruction module (24, 70, 80, 82, 150, 152, 154) configured to perform a reconstruction other than the standard reconstruction of at least a portion of the list mode data set to generate an enhanced reconstructed image (84, 86).
    • 重建列表模式数据的方法包括:重建列表模式数据集(30,160)的所有列表模式数据,以生成第一重建图像(32,62); 选择列表模式数据集的子集; 以及重建列表模式数据集的子集以生成增强的重建图像(84,86)。 一种图像生成系统包括:重建模块(24),被配置为执行列表模式数据集的标准重建以生成标准重建图像(32,62); 以及重建重建模块(24,70,80,82,150,152,154),其被配置为执行不同于所述列表模式数据集的至少一部分的标准重建的生成增强重建图像(84 ,86)。
    • 7. 发明授权
    • Patient bed for PET/MR imaging systems
    • PET / MR成像系统的病床
    • US08516636B2
    • 2013-08-27
    • US12195655
    • 2008-08-21
    • Daniel GagnonMichael A. MorichDouglas M. Blakeley
    • Daniel GagnonMichael A. MorichDouglas M. Blakeley
    • A61B6/04
    • A61B5/0555A61B5/0035A61B6/032A61B6/037A61B6/4417A61B6/4429
    • A hybrid imaging system and a patient bed for same are disclosed. The hybrid imaging system includes a magnetic resonance scanner and a second modality imaging system spaced apart from the magnetic resonance scanner by a gap. In some embodiments, the gap is less than seven meters. The patient bed is disposed at least partially in the gap between the magnetic resonance scanner and the second modality imaging system, and includes a linearly translatable patient support pallet aligned to be selectively moved into an examination region of the magnetic resonance scanner for magnetic resonance imaging and into an examination region of the second modality imaging system for second modality imaging. In some embodiments, a linear translation range of the linearly translatable pallet is less than five times a length of the patient support pallet along the direction of linear translation.
    • 公开了一种混合成像系统和用于其的患者床。 混合成像系统包括磁共振扫描器和通过间隙与磁共振扫描器隔开的第二模态成像系统。 在一些实施例中,间隙小于7米。 患者床至少部分地设置在磁共振扫描仪和第二模态成像系统之间的间隙中,并且包括可选择性地移动到用于磁共振成像的磁共振扫描仪的检查区域中的线性可平移的患者支撑托盘, 进入用于第二模态成像的第二模态成像系统的检查区域。 在一些实施例中,线性平移托盘的线性平移范围小于患者支撑托盘沿线性平移方向的长度的五倍。
    • 9. 发明授权
    • Modular multi-geometry PET system
    • 模块化多形PET系统
    • US08378305B2
    • 2013-02-19
    • US12935302
    • 2009-03-20
    • Daniel GagnonDouglas B. McKnight
    • Daniel GagnonDouglas B. McKnight
    • G01T1/20
    • G01T1/2985A61B6/037G01R33/481
    • When performing positron emission tomography (PET) scanning and image reconstruction, a primary PET system (10) with a primary PET detector array (12) is used to image a patient or subject, and a secondary PET detector array (14) is coupled to the system at specific input points to mitigate unnecessary duplication of system components. The primary system (10) provides PET data processing and reconstruction for the secondary array (14), in addition to the first array (12). An adjustable array (120) includes radially movable detectors (122) and stationary detectors (124) with different crystal resolutions. The movable detectors (122) are alternately positioned with the stationary detectors (124) at a first radius to form a large detector ring, or are positioned at a second, smaller radius without the stationary detectors (124) to form a small detector ring.
    • 当进行正电子发射断层扫描(PET)扫描和图像重建时,使用具有主要PET检测器阵列(12)的主要PET系统(10)对患者或受试者进行成像,并且将辅助PET检测器阵列(14)耦合到 该系统在特定的输入点,以减轻不必要的系统组件重复。 除了第一阵列(12)之外,主系统(10)还为次级阵列(14)提供PET数据处理和重建。 可调节阵列(120)包括具有不同晶体分辨率的径向可移动探测器(122)和固定探测器(124)。 移动检测器(122)与第一半径处的固定式检测器(124)交替定位以形成大的检测器环,或者定位在第二较小的半径处,而没有固定的检测器(124)以形成小的检测器环。