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    • 2. 发明申请
    • Method for endoluminal imaging with movement correction
    • 用于运动矫正的腔内成像方法
    • US20050197559A1
    • 2005-09-08
    • US11076537
    • 2005-03-08
    • Jan BoeseMartin KleenMarcus PfisterNorbert Rahn
    • Jan BoeseMartin KleenMarcus PfisterNorbert Rahn
    • G01N21/64A61B5/00A61B5/05A61B5/055A61B5/06A61B6/00A61B6/02A61B6/03A61B6/12A61B8/12A61B19/00A61M25/095G01N21/17
    • A61B5/06A61B5/0073A61B5/0084A61B5/7207A61B5/7289A61B8/12A61B8/5238
    • The present invention relates to a method for imaging using an image-generating, endoluminal instrument (1) by means of which a sequence of 2D image data of a hollow channel (2), in particular a vessel, of an object under investigation is recorded, wherein the images are recorded in a known temporal relation to a periodic movement of the object under investigation and spatial coordinates of the image are captured by means of a position sensor during each recording of an image (5) and stored as position data (9, 10) together with the 2D image data of the image (5). The method is characterized in that first position data (10) which does not lie in a predefinable movement phase of the object under investigation is corrected, before or after being stored, by interpolation between second position data (9) which does lie in the specified movement phase and/or by subtraction or addition of predetermined values. By means of the method a movement correction of the data can be performed without the need to reduce the volume of recorded image material.
    • 本发明涉及一种使用图像生成的腔内器械(1)进行成像的方法,通过该方法,记录被调查对象的空心通道(2),特别是血管的2D图像数据的序列 ,其中图像以已知的时间关系记录在被调查对象的周期性运动中,并且在每次记录图像(5)期间通过位置传感器捕获图像的空间坐标,并将其存储为位置数据(9) ,10)与图像(5)的2D图像数据一起。 该方法的特征在于,通过在位于指定的位置的第二位置数据(9)之间的内插来校正不在被调查对象的预定义移动阶段的第一位置数据(10),在存储之前或之后, 移动阶段和/或通过减去或添加预定值。 通过该方法,可以执行数据的移动校正,而不需要减少记录的图像材料的体积。
    • 5. 发明申请
    • Registering intra-operative image data sets with pre-operative 3D image data sets on the basis of optical surface extraction
    • 基于光学表面提取,将手术前图像数据集与术前3D图像数据集进行注册
    • US20070238952A1
    • 2007-10-11
    • US11496069
    • 2006-07-28
    • Jan BoeseMartin KleenKlaus Klingenbeck-RegnMarcus PfisterNorbert Rahn
    • Jan BoeseMartin KleenKlaus Klingenbeck-RegnMarcus PfisterNorbert Rahn
    • A61B5/05
    • G06T7/55G06T7/38G06T7/50G06T2207/30004
    • The invention relates to a method for registering intra-operative image data set with pre-operative 3D image data set, comprising: spatial calibrating an optical 3D sensor system with an intra-operative imaging modality, intra-operative detecting the surface of an examination area of interest with the 3D sensor system to produce an intra-operative surface mask, intra-operative recording the area of interest for examination with the intra-operative modality at least partly containing the intra-operative surface mask to obtain an intra-operative image data set, computing the same surface from the pre-operative 3D image data set containing the detected surface to obtain a pre-operative surface mask, registering the intra-operative and pre-operative surface mask with each other, determining a mapping specification between pre-operative 3D image data set and intra-operative image data set based on the calibration and the registration, and overlaying the intra-operative image data set with the pre-operative 3D data set based on the mapping specification.
    • 本发明涉及一种用于记录术前图像数据组与手术前3D图像数据集的方法,包括:用术中成像模态对光学3D传感器系统进行空间校准,手术中检测检查区域的表面 感兴趣的3D传感器系统以产生术中表面掩模,用至少部分地包含术中表面掩模的手术内模式手术内记录用于检查的感兴趣区域以获得手术中图像数据 设置,从包含检测到的表面的术前3D图像数据集计算相同的表面,以获得术前表面掩模,将手术前和手术前表面掩模彼此对准, 基于校准和注册的手术3D图像数据集和手术中图像数据集,并且将术中图像数据集合与t 他基于映射规范进行手术前3D数据集。
    • 6. 发明申请
    • Arrangement for acquiring an object
    • 获取物品的安排
    • US20070083103A1
    • 2007-04-12
    • US11529681
    • 2006-09-28
    • Jan BoeseMartin KleenAndreas MeyerMarcus PfisterNorbert Rahn
    • Jan BoeseMartin KleenAndreas MeyerMarcus PfisterNorbert Rahn
    • A61B5/05
    • G01B21/20A61B5/06A61B5/062A61B6/4441A61B6/467A61B6/5235
    • The invention relates to an arrangement having a 3D device, the 3D device being embodied for acquiring an objects and generating a 3D acquisition result representing the object at least partially in at least three dimensions. The arrangement also has a 2D device, the 2D device being embodied for acquiring the object and generating a 2D acquisition result representing the object in at least two dimensions. The 2D acquisition result represents the object at least partially, in particular a top view of the object, a view through the object or a section through the objects. The invention is characterized in that the 3D devices and the 2D devices are connected to one another, mechanically electrically, in such a way that a part of the 3D acquisition result corresponding to an object location can be assigned to a part of the 2D acquisition result corresponding to the same object location.
    • 本发明涉及一种具有3D装置的装置,该3D装置被实施为用于获取对象并且至少部分地至少三维地生成表示该对象的3D采集结果。 该装置还具有2D设备,2D设备被实现为用于获取对象并在至少二维中生成表示对象的2D采集结果。 2D采集结果至少部分地表示对象,特别是对象的顶视图,通过对象的视图或通过对象的部分。 本发明的特征在于,3D装置和2D装置彼此机械电连接,使得对应于对象位置的3D采集结果的一部分可被分配给2D采集结果的一部分 对应于相同的对象位置。
    • 7. 发明授权
    • Registering intra-operative image data sets with pre-operative 3D image data sets on the basis of optical surface extraction
    • 基于光学表面提取,将手术前图像数据集与术前3D图像数据集进行注册
    • US07664542B2
    • 2010-02-16
    • US11496069
    • 2006-07-28
    • Jan BoeseMartin KleenKlaus Klingenbeck-RegnMarcus PfisterNorbert Rahn
    • Jan BoeseMartin KleenKlaus Klingenbeck-RegnMarcus PfisterNorbert Rahn
    • A61B5/05A61B6/00
    • G06T7/55G06T7/38G06T7/50G06T2207/30004
    • The invention relates to a method for registering intra-operative image data set with pre-operative 3D image data set, including: spatially calibrating an optical 3D sensor system with an intra-operative imaging modality, intra-operatively detecting the surface of an examination area of interest with the 3D sensor system to produce an intra-operative surface mask, intra-operatively recording the area of interest for examination with the intra-operative modality at least partly containing the intra-operative surface mask to obtain an intra-operative image data set, computing the same surface from the pre-operative 3D image data set containing the detected surface to obtain a pre-operative surface mask, registering the intra-operative and pre-operative surface mask with each other, determining a mapping specification between pre-operative 3D image data set and intra-operative image data set based on the calibration and the registration, and overlaying the intra-operative image data set with the pre-operative 3D data set based on the mapping specification.
    • 本发明涉及一种用于记录术前图像数据组与手术前3D图像数据集的方法,所述方法包括:空间校准具有术中成像模态的光学3D传感器系统,操作内检测检查区域的表面 感兴趣的3D传感器系统以产生术中表面掩模,用至少部分地包含术中表面掩模的手术内模式操作内记录用于检查的感兴趣区域以获得手术中图像数据 设置,从包含检测到的表面的术前3D图像数据集计算相同的表面,以获得术前表面掩模,将手术前和手术前表面掩模彼此对准, 基于校准和注册的手术3D图像数据集和手术中图像数据集合,并且将术中图像数据集w 基于映射规范的术前3D数据集。
    • 8. 发明授权
    • Method for endoluminal imaging with movement correction
    • 用于运动矫正的腔内成像方法
    • US07657069B2
    • 2010-02-02
    • US11076537
    • 2005-03-08
    • Jan BoeseMartin KleenMarcus PfisterNorbert Rahn
    • Jan BoeseMartin KleenMarcus PfisterNorbert Rahn
    • G06K9/00
    • A61B5/06A61B5/0073A61B5/0084A61B5/7207A61B5/7289A61B8/12A61B8/5238
    • The present invention relates to a method for imaging using an image-generating, endoluminal instrument (1) by means of which a sequence of 2D image data of a hollow channel (2), in particular a vessel, of an object under investigation is recorded, wherein the images are recorded in a known temporal relation to a periodic movement of the object under investigation and spatial coordinates of the image are captured by means of a position sensor during each recording of an image (5) and stored as position data (9, 10) together with the 2D image data of the image (5). The method is characterized in that first position data (10) which does not lie in a predefinable movement phase of the object under investigation is corrected, before or after being stored, by interpolation between second position data (9) which does lie in the specified movement phase and/or by subtraction or addition of predetermined values. By means of the method a movement correction of the data can be performed without the need to reduce the volume of recorded image material.
    • 本发明涉及一种使用图像生成的腔内器械(1)进行成像的方法,通过该方法,记录被调查对象的空心通道(2),特别是血管的2D图像数据的序列 ,其中图像以已知的时间关系记录在被调查对象的周期性运动中,并且在每次记录图像(5)期间通过位置传感器捕获图像的空间坐标,并将其存储为位置数据(9) ,10)与图像(5)的2D图像数据一起。 该方法的特征在于,通过在位于指定的位置的第二位置数据(9)之间的内插来校正不在被调查对象的预定义移动阶段的第一位置数据(10),在存储之前或之后, 移动阶段和/或通过减去或添加预定值。 通过该方法,可以执行数据的移动校正,而不需要减少记录的图像材料的体积。
    • 10. 发明授权
    • Catheter device
    • 导管装置
    • US07578787B2
    • 2009-08-25
    • US11040468
    • 2005-01-21
    • Jan BoeseMartin KleenNorbert Rahn
    • Jan BoeseMartin KleenNorbert Rahn
    • A61B1/00A61M31/00A61M25/00
    • A61M25/0105A61M25/0155A61M2025/0161
    • Catheter device, comprising a catheter (2) for introduction into a hollow organ, especially a vessel, with a number of bending elements (12, 12a-12f, 12a′-12e′) arranged around the longitudinal axis of the catheter and distributed over at least a part of the catheter length, which can be activated separately for a specified change of shape via a control device (5), as well as a number of bending sensors (15, 15a-15e, 15a′-15e′) arranged around the longitudinal axis of the catheter and distributed over at least a part of the catheter length communicating with a control device (5), with the control device (5) being embodied to determine the given geometrical shape of the catheter (2) on the basis of the bending sensor signals and to determine the change of shape of the bending elements (12, 12a-12f, 12a′-12e′) necessary for a movement of the catheter (2) by a forward movement length preferably specifiable on the user side to enable the catheter (2) to move by itself at least in part, by explicit bend-dependent force application to the wall of the organ (16).
    • 导管装置,包括用于引入中空器官,特别是血管的导管(2),其具有围绕导管的纵向轴线布置的多个弯曲元件(12,12a-12f,12a'-12e'),并分布在 导管长度的至少一部分,其可以通过控制装置(5)以及多个弯曲传感器(15,15a-15e,15a'-15e')分别被激活以形成规定的形状变化, 围绕所述导管的纵向轴线并且分布在与控制装置(5)连通的导管长度的至少一部分上,所述控制装置(5)被实施为确定所述导管(2)的给定几何形状 弯曲传感器信号的基础并且确定导管(2)移动所需的弯曲元件(12,12a-12f,12a'-12e')的形状的变化,该向前移动长度优选地可以在用户上指定 侧使得导管(​​2)至少部分地移动到其自身 明显的弯曲依赖力施加到器官的壁(16)。