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    • 5. 发明授权
    • Medical image display device and image displaying method
    • 医用图像显示装置及图像显示方法
    • US08374410B2
    • 2013-02-12
    • US12525315
    • 2009-02-12
    • Shigeharu OhyuHitoshi YamagataArturo CalderonAtsuko Sugiyama
    • Shigeharu OhyuHitoshi YamagataArturo CalderonAtsuko Sugiyama
    • G06K9/00
    • G06T11/00A61B6/463A61B6/5235A61B6/5247G06T7/33G06T2207/10072G06T2207/30061G06T2207/30101
    • A reference landmark extracting and pairing unit extracts reference landmarks from each of two three-dimensional medical images and forms reference landmark pairs, while a general landmark extracting unit extracts general landmarks. The landmark pair forming unit forms general landmark pairs using of a distance between each of the reference landmarks and the general landmarks, and also forms general landmark pairs from the remaining general landmarks using the distances from the general landmarks included in the general landmark pairs. A coordinate transformation parameter calculating unit calculates coordinate transformation parameters, based on the positional information of the reference landmark pairs and the general landmark pairs. A corresponding sectional view creating unit creates corresponding sectional views for the two three-dimensional medical images based on the coordinate transformation parameters, and by the display controlling unit the two corresponding sectional views are displayed on a displaying unit.
    • 参考标记提取和配对单元从两个三维医学图像中的每一个提取参考地标并形成参考地标对,而一般地标提取单元提取一般地标。 地标对形成单元使用每个参考地标和一般地标之间的距离形成一般地标对,并且还使用与一般地标对中包括的一般地标的距离,从剩余的一般地标形成一般地标对。 坐标变换参数计算单元基于参考地标对和一般地标对的位置信息来计算坐标变换参数。 相应的剖视图生成单元基于坐标变换参数对两个三维医学图像生成相应的剖视图,并且由显示控制单元在显示单元上显示两个对应的截面图。
    • 7. 发明申请
    • MEDICAL IMAGE DISPLAY DEVICE AND IMAGE DISPLAYING METHOD
    • 医学图像显示装置和图像显示方法
    • US20110158487A1
    • 2011-06-30
    • US12525315
    • 2009-02-12
    • Shigeharu OhyuHitoshi YamagataArturo CalderonAtsuko Sugiyama
    • Shigeharu OhyuHitoshi YamagataArturo CalderonAtsuko Sugiyama
    • G06K9/00
    • G06T11/00A61B6/463A61B6/5235A61B6/5247G06T7/33G06T2207/10072G06T2207/30061G06T2207/30101
    • A reference landmark extracting and pairing unit extracts reference landmarks from each of two three-dimensional medical images and forms reference landmark pairs, while a general landmark extracting unit extracts general landmarks. The landmark pair forming unit forms general landmark pairs using of a distance between each of the reference landmarks and the general landmarks, and also forms general landmark pairs from the remaining general landmarks using the distances from the general landmarks included in the general landmark pairs. A coordinate transformation parameter calculating unit calculates coordinate transformation parameters, based on the positional information of the reference landmark pairs and the general landmark pairs. A corresponding sectional view creating unit creates corresponding sectional views for the two three-dimensional medical images based on the coordinate transformation parameters, and by the display controlling unit the two corresponding sectional views are displayed on a displaying unit.
    • 参考标记提取和配对单元从两个三维医学图像中的每一个提取参考地标并形成参考地标对,而一般地标提取单元提取一般地标。 地标对形成单元使用每个参考地标和一般地标之间的距离形成一般地标对,并且还使用与一般地标对中包括的一般地标的距离,从剩余的一般地标形成一般地标对。 坐标变换参数计算单元基于参考地标对和一般地标对的位置信息来计算坐标变换参数。 相应的剖视图生成单元基于坐标变换参数对两个三维医学图像生成相应的剖视图,并且由显示控制单元在显示单元上显示两个对应的截面图。
    • 8. 发明授权
    • Processor for analyzing tubular structure such as blood vessels
    • 用于分析管状结构如血管的处理器
    • US07369691B2
    • 2008-05-06
    • US10803930
    • 2004-03-19
    • Yasuhira KondoShigeharu OhyuHitoshi YamagataArturo CalderonTomohiro KawasakiAtsuko Sugiyama
    • Yasuhira KondoShigeharu OhyuHitoshi YamagataArturo CalderonTomohiro KawasakiAtsuko Sugiyama
    • G06K9/00
    • G06T15/08G06T7/12G06T2207/30172G06T2215/06
    • Using medical three-dimensional image data, at least one of a volume-rendering image, a flat reformatted image on an arbitrary section, a curved reformatted image, and an MIP (maximum value projection) image is prepared as a reference image. Vessel center lines are extracted from this reference image, and at least one of a vessel stretched image based on the center line and a perpendicular sectional image substantially perpendicular to the center line is prepared. The shape of vessels is analyzed on the basis of the prepared image, and the prepared stretched image and/or the perpendicular sectional image is compared with the reference image, and the result is displayed together with the images. Display of the reference image with the stretched image or the perpendicular sectional image is made conjunctive. Correction of the center line by the operator and automatic correction of the image resulting from the correction are also possible.
    • 使用医疗三维图像数据,准备体绘制图像,任意部分上的平坦重新格式化图像,曲线重新格式化图像和MIP(最大值投影)图像中的至少一个作为参考图像。 从该参考图像中提取容器中心线,并且准备基于中心线的容器拉伸图像和基本上垂直于中心线的垂直截面图像中的至少一个。 基于制备的图像分析容器的形状,并将制备的拉伸图像和/或垂直截面图像与参考图像进行比较,并且结果与图像一起显示。 使用拉伸图像或垂直截面图像显示参考图像是连接的。 操作人员对中心线进行校正,校正后的图像进行自动校正也是可能的。