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    • 2. 发明申请
    • INTEGRATED ASSESSMENTS, WORKFLOW, AND REPORTING
    • 综合评估,工作流程和报告
    • US20110166871A1
    • 2011-07-07
    • US12446980
    • 2007-10-31
    • John C. RyanBin Zhou
    • John C. RyanBin Zhou
    • G06Q50/00G06Q10/00
    • G06Q50/22G06Q10/06G16H40/20
    • A risk assessment input terminal (10) displays a risk assessment template (FIG. 2) through which risk assessment information is entered of each of a plurality of patients. A care plan processor (12) assembles intervention or goal modules from a module memory (14) into care plans for the patients which are stored in a patient file memory (16). Portions of a patient's care plan that are to be delivered to a patient each day are supplied over an electronic network (22) to a patient terminal (24) for display. Some of the modules also call for tasks to be performed. The tasks to be performed each day are retrieved by a work flow processor (30) and delivered to a plurality of care professional workstations (32). Care plan professionals complete the open tasks or transfer open tasks to another care professional and close the completed tasks. A report generator (70) generates various reports.
    • 风险评估输入终端(10)显示风险评估模板(图2),通过该风险评估模板输入多个患者中的每个患者的风险评估信息。 护理计划处理器(12)将干预或目标模块从模块存储器(14)组装成用于存储在患者文件存储器(16)中的患者的护理计划。 每天要传送给患者的患者护理计划的部分通过电子网络(22)提供给患者终端(24)以进行显示。 一些模块还要求执行任务。 每天要执行的任务由工作流处理器(30)检索并传送到多个护理专业工作站(32)。 护理计划专业人员完成开放任务或将开放任务转交给另一名护理专业人员并关闭已完成的任务。 报告生成器(70)生成各种报告。
    • 5. 发明申请
    • APPARATUS, METHOD AND COMPUTER PROGRAM FOR PRODUCING A CORRECTED IMAGE OF A REGION OF INTEREST FROM ACQUIRED PROJECTION DATA
    • 用于生成来自获取的投影数据的利益区域的校正图像的装置,方法和计算机程序
    • US20100322514A1
    • 2010-12-23
    • US12521599
    • 2007-12-19
    • Thomas Koehler
    • Thomas Koehler
    • G06K9/34
    • G06T11/005A61B6/5258
    • The present invention relates to an apparatus for producing a corrected image of a region of interest from acquired projection data (60), wherein an uncorrected intermediate image (74) is reconstructed. The uncorrected intermediate image (74) is corrected and image elements of the corrected intermediate image (85) are classified. Image elements of the corrected 5 intermediate image (85) that are of a high density or low density class are replaced by image elements having values depending on values of the low density class to generate a synthetic image (90). Synthetic projection data (96) are generated by forward projecting the synthetic image (90), and acquired projection data contributing to the high density class are replaced by corresponding synthetic projection data (96) to generate corrected projection data (112). 10 The corrected projection data (112) are used for reconstructing the corrected image.
    • 本发明涉及一种用于从所获取的投影数据(60)产生感兴趣区域的校正图像的装置,其中重建未校正的中间图像(74)。 对未校正的中间图像(74)进行校正,校正的中间图像(85)的图像元素被分类。 具有高密度或低密度等级的校正的5中间图像(85)的图像元素由具有取决于低密度等级的值的值的图像元素代替以产生合成图像(90)。 合成投影数据(96)通过前向投影合成图像(90)产生,并且由相应的合成投影数据(96)代替有助于高密度等级的获取的投影数据以产生校正投影数据(112)。 校正投影数据(112)用于重建校正图像。
    • 9. 发明申请
    • DETECTOR ARRAY FOR SPECTRAL CT
    • 检测器阵列用于光谱CT
    • US20100220833A1
    • 2010-09-02
    • US11912672
    • 2006-04-06
    • Simha LeveneOlga ShapiroAmi AltmanNaor Wainer
    • Simha LeveneOlga ShapiroAmi AltmanNaor Wainer
    • G01T1/164G01T1/20A61B6/03H05K13/00
    • G01T1/202G01T1/2018G01T1/2985Y10T29/49002
    • A radiation detector (24) includes a two-dimensional array of upper scintillators (30τ) which is disposed facing an x-ray source (14) to convert lower energy radiation events into visible light and transmit higher energy radiation. A two-dimensional array of lower scintillators (30B) is disposed adjacent the upper scintillators (30τ) distally from the x-ray source (14) to convert the transmitted higher energy radiation into visible light. Upper and lower photodetectors (38τ, 30B) are optically coupled to the respective upper and lower scintillators (30τ,30B) at an inner side (60) of the scintillators (30τ,30B). An optical element (100) is optically coupled with the upper scintillators (30τ) to collect and channel the light from the upper scintillators (30τ) into corresponding upper photodetectors (38τ).
    • 放射线检测器(24)包括面向x射线源(14)设置的上部闪烁体(30τ)的二维阵列,以将较低的能量辐射事件转换成可见光并传输更高的能量辐射。 将下部闪烁体(30B)的二维阵列设置成与x射线源(14)远离的上部闪烁体(30τ)相邻,以将透射的较高能量辐射转换成可见光。 上部和下部光电检测器(38τ,30B)在闪烁体(30τ,30B)的内侧(60)处光耦合到相应的上和下闪烁体(30τ,30B)。 光学元件(100)与上部闪烁体(30τ)光学耦合以收集并将来自上部闪烁体(30τ)的光引导到相应的上部光电检测器(38τ)中。