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1.发明申请公开(公告)号:US20100121181A1
公开(公告)日:2010-05-13
申请号:US12538456
申请日:2009-08-10
申请人: Peng Wang , Ying Zhu , Wei Zhang , Terrence Chen , Peter Durlak , Ulrich Bill , Dorin Comaniciu
发明人: Peng Wang , Ying Zhu , Wei Zhang , Terrence Chen , Peter Durlak , Ulrich Bill , Dorin Comaniciu
IPC分类号: A61B5/05
CPC分类号: A61B6/12 , A61B2034/2065 , A61B2090/376 , G06T7/246 , G06T2207/10016 , G06T2207/10121 , G06T2207/30021
摘要: A method and system for tracking a guidewire in a fluoroscopic image sequence is disclosed. In order to track a guidewire in a fluoroscopic image sequence, guidewire segments are detected in each frame of the fluoroscopic image sequence. The guidewire in each frame of the fluoroscopic image sequence is then detected by rigidly tracking the guidewire from a previous frame of the fluoroscopic image sequence based on the detected guidewire segments in the current frame. The guidewire is then non-rigidly deformed in each frame based on the guidewire position in the previous frame.
摘要翻译: 公开了一种用于跟踪透视图像序列中的导丝的方法和系统。 为了在透视图像序列中跟踪导丝,在荧光镜图像序列的每个帧中检测导丝段。 然后通过基于当前帧中检测到的导丝段从透视图像序列的前一帧刚性跟踪导丝来检测透视图像序列的每个帧中的导丝。 然后基于先前框架中的导丝线位置,导丝在每个框架中不会刚性变形。
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2.发明授权公开(公告)号:US08423121B2
公开(公告)日:2013-04-16
申请号:US12538456
申请日:2009-08-10
申请人: Peng Wang , Ying Zhu , Wei Zhang , Terrence Chen , Peter Durlak , Ulrich Bill , Dorin Comaniciu
发明人: Peng Wang , Ying Zhu , Wei Zhang , Terrence Chen , Peter Durlak , Ulrich Bill , Dorin Comaniciu
IPC分类号: A61B5/05
CPC分类号: A61B6/12 , A61B2034/2065 , A61B2090/376 , G06T7/246 , G06T2207/10016 , G06T2207/10121 , G06T2207/30021
摘要: A method and system for tracking a guidewire in a fluoroscopic image sequence is disclosed. In order to track a guidewire in a fluoroscopic image sequence, guidewire segments are detected in each frame of the fluoroscopic image sequence. The guidewire in each frame of the fluoroscopic image sequence is then detected by rigidly tracking the guidewire from a previous frame of the fluoroscopic image sequence based on the detected guidewire segments in the current frame. The guidewire is then non-rigidly deformed in each frame based on the guidewire position in the previous frame.
摘要翻译: 公开了一种用于跟踪透视图像序列中的导丝的方法和系统。 为了在透视图像序列中跟踪导丝,在荧光镜图像序列的每个帧中检测导丝段。 然后通过基于当前帧中检测到的导丝段从透视图像序列的前一帧刚性跟踪导丝来检测透视图像序列的每个帧中的导丝。 然后基于先前框架中的导丝线位置,导丝在每个框架中不会刚性变形。
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公开(公告)号:US08355550B2
公开(公告)日:2013-01-15
申请号:US12150816
申请日:2008-05-01
申请人: Wei Zhang , Ying Zhu , Adrian Barbu , Richard Socher , Stefan Böhm , Peter Durlak , Dorin Comaniciu
发明人: Wei Zhang , Ying Zhu , Adrian Barbu , Richard Socher , Stefan Böhm , Peter Durlak , Dorin Comaniciu
IPC分类号: G06K9/00
CPC分类号: G06K9/3216 , A61B6/12 , A61B6/481 , A61B6/504 , G06K2009/00932 , G06K2209/05 , G06T7/12 , G06T2207/20044 , G06T2207/30101 , G06T2207/30172
摘要: A virtual map of vessels of interest in medical procedures, such as coronary angioplasty is created so that doses of contrasting agent given to a patient may be reduced. A position of a coronary guidewire is determined and locations of vessel boundaries are found. When the contrast agent has dissipated, virtual maps of the vessels are created as new images. The locations of the determined vessel boundaries are imported to a mapping system and an image obtained without using a contrast agent is modified based on the imported locations of vessel boundaries. This creates a virtual map of the vessels.
摘要翻译: 创建医疗程序感兴趣的血管的虚拟地图,例如冠状动脉血管成形术,以便减少给予患者的剂量的造影剂。 确定冠状导丝的位置并找到血管边界的位置。 当造影剂消散时,血管的虚拟地图被创建为新的图像。 确定的容器边界的位置被导入到映射系统,并且基于导入的容器边界的位置来修改不使用造影剂获得的图像。 这将创建一个血管的虚拟地图。
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公开(公告)号:US20080275335A1
公开(公告)日:2008-11-06
申请号:US12150816
申请日:2008-05-01
申请人: Wei Zhang , Ying Zhu , Adrian Barbu , Richard Socher , Stefan Bohm , Peter Durlak , Dorin Comaniciu
发明人: Wei Zhang , Ying Zhu , Adrian Barbu , Richard Socher , Stefan Bohm , Peter Durlak , Dorin Comaniciu
CPC分类号: G06K9/3216 , A61B6/12 , A61B6/481 , A61B6/504 , G06K2009/00932 , G06K2209/05 , G06T7/12 , G06T2207/20044 , G06T2207/30101 , G06T2207/30172
摘要: A virtual map of vessels of interest in medical procedures, such as coronary angioplasty is created so that doses of contrasting agent given to a patient may be reduced. A position of a coronary guidewire is determined and locations of vessel boundaries are found. When the contrast agent has dissipated, virtual maps of the vessels are created as new images. The locations of the determined vessel boundaries are imported to a mapping system and an image obtained without using a contrast agent is modified based on the imported locations of vessel boundaries. This creates a virtual map of the vessels.
摘要翻译: 创建医疗程序感兴趣的血管的虚拟地图,例如冠状动脉血管成形术,以便减少给予患者的剂量的造影剂。 确定冠状导丝的位置并找到血管边界的位置。 当造影剂消散时,血管的虚拟地图被创建为新的图像。 确定的容器边界的位置被导入到映射系统,并且基于导入的容器边界的位置来修改不使用造影剂获得的图像。 这将创建一个血管的虚拟地图。
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5.发明授权Method and system for real time stent enhancement on live 2D fluoroscopic scene 有权实时2D荧光镜场景实时支架增强的方法和系统公开(公告)号:US09082158B2
公开(公告)日:2015-07-14
申请号:US13759170
申请日:2013-02-05
申请人: Terrence Chen , Peter Durlak , Markus Rossmeier , Dorin Comaniciu
发明人: Terrence Chen , Peter Durlak , Markus Rossmeier , Dorin Comaniciu
CPC分类号: G06T5/00 , G06T5/003 , G06T5/50 , G06T2207/10016 , G06T2207/10121 , G06T2207/20081 , G06T2207/20221 , G06T2207/30048 , G06T2207/30052 , G06T2207/30204
摘要: A method and system for real time stent enhancement on a live 2D fluoroscopic scene is disclosed. A motion compensated stent enhancement image is generated from a first set of frames in a fluoroscopic image sequence. A weighting field is generated based on the motion compensated stent enhancement image. For each new frame in the fluoroscopic image sequence that is received, the stent is enhanced in the new frame by compounding the new frame with the motion compensated stent enhancement image using the weighting field.
摘要翻译: 公开了一种用于实时2D荧光镜场景实时支架增强的方法和系统。 从透视图像序列中的第一组帧生成运动补偿支架增强图像。 基于运动补偿支架增强图像产生加权场。 对于所接收的透视图像序列中的每个新帧,通过使用加权域将新帧与运动补偿支架增强图像复合来在新帧中增强支架。
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6.发明申请STENT MARKER DETECTION USING A LEARNING BASED CLASSIFIER IN MEDICAL IMAGING 有权使用基于学习的分类器在医学成像中的STENT MARKER检测公开(公告)号:US20110144480A1
公开(公告)日:2011-06-16
申请号:US12960635
申请日:2010-12-06
申请人: Xiaoguang Lu , Terrence Chen , Thomas Pohl , Peter Durlak , Dorin Comaniciu
发明人: Xiaoguang Lu , Terrence Chen , Thomas Pohl , Peter Durlak , Dorin Comaniciu
IPC分类号: A61B5/05
摘要: Stent marker detection is automatically performed. Stent markers in fluoroscopic images or other markers in other types of imaging are detected using a machine-learnt classifier. Hierarchal classification may be used, such as detecting individual markers with one classifier and then detecting groups of markers (e.g., a pair) with a joint classifier. The detection may be performed in a single image and without user indication of a location.
摘要翻译: 自动执行支架标记检测。 使用机器学习分类器检测透视图像或其他类型成像中的其他标记物的支架标记。 可以使用分层分类,例如用一个分类器检测单个标记,然后用联合分类器检测标记组(例如,一对)。 检测可以在单个图像中执行,而不用用户指示位置。
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公开(公告)号:US20110142318A1
公开(公告)日:2011-06-16
申请号:US12960625
申请日:2010-12-06
申请人: Terrence Chen , Xiaoguang Lu , Thomas Pohl , Peter Durlak , Dorin Comaniciu
发明人: Terrence Chen , Xiaoguang Lu , Thomas Pohl , Peter Durlak , Dorin Comaniciu
IPC分类号: G06K9/00
CPC分类号: G06K9/4614 , G06K9/6257 , G06T5/50 , G06T2207/20224
摘要: Stent viewing is provided in medical imaging. Stent images are provided with minimal or no user input of spatial locations. Images showing contrast agent are distinguished from other images in a sequence. After aligning non-contrast images, the images are compounded to enhance the stent. The contrast agent images are used to identify the vessel. A contrast agent image is aligned with the enhanced stent or other image to determine the relative vessel location. An indication of the vessel wall may be displayed in an image also showing the stent. A preview images may be output. A guide wire may be used to detect the center line for vessel identification. Various detections are performed using a machine-trained classifier or classifiers.
摘要翻译: 在医疗成像中提供支架观察。 支架图像提供最小或没有空间位置的用户输入。 显示造影剂的图像与序列中的其他图像不同。 对准非对比度图像后,复合图像以增强支架。 造影剂图像用于识别血管。 造影剂图像与增强的支架或其他图像对准以确定相对血管位置。 可以在也显示支架的图像中显示血管壁的指示。 可以输出预览图像。 引导线可用于检测用于船舶识别的中心线。 使用机器训练的分类器或分类器执行各种检测。
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8.发明申请Method and System for Real Time Stent Enhancement on Live 2D Fluoroscopic Scene 有权用于实时2D荧光镜场景的实时支架的方法和系统公开(公告)号:US20140079308A1
公开(公告)日:2014-03-20
申请号:US13759170
申请日:2013-02-05
申请人: Terrence Chen , Peter Durlak , Markus Rossmeier , Dorin Comaniciu
发明人: Terrence Chen , Peter Durlak , Markus Rossmeier , Dorin Comaniciu
IPC分类号: G06T5/00
CPC分类号: G06T5/00 , G06T5/003 , G06T5/50 , G06T2207/10016 , G06T2207/10121 , G06T2207/20081 , G06T2207/20221 , G06T2207/30048 , G06T2207/30052 , G06T2207/30204
摘要: A method and system for real time stent enhancement on a live 2D fluoroscopic scene is disclosed. A motion compensated stent enhancement image is generated from a first set of frames in a fluoroscopic image sequence. A weighting field is generated based on the motion compensated stent enhancement image. For each new frame in the fluoroscopic image sequence that is received, the stent is enhanced in the new frame by compounding the new frame with the motion compensated stent enhancement image using the weighting field.
摘要翻译: 公开了一种用于实时2D荧光镜场景实时支架增强的方法和系统。 从透视图像序列中的第一组帧生成运动补偿支架增强图像。 基于运动补偿支架增强图像产生加权场。 对于所接收的透视图像序列中的每个新帧,通过使用加权域将新帧与运动补偿支架增强图像复合来在新帧中增强支架。
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9.发明授权公开(公告)号:US08311308B2
公开(公告)日:2012-11-13
申请号:US12960625
申请日:2010-12-06
申请人: Terrence Chen , Xiaoguang Lu , Thomas Pohl , Peter Durlak , Dorin Comaniciu
发明人: Terrence Chen , Xiaoguang Lu , Thomas Pohl , Peter Durlak , Dorin Comaniciu
CPC分类号: G06K9/4614 , G06K9/6257 , G06T5/50 , G06T2207/20224
摘要: Stent viewing is provided in medical imaging. Stent images are provided with minimal or no user input of spatial locations. Images showing contrast agent are distinguished from other images in a sequence. After aligning non-contrast images, the images are compounded to enhance the stent. The contrast agent images are used to identify the vessel. A contrast agent image is aligned with the enhanced stent or other image to determine the relative vessel location. An indication of the vessel wall may be displayed in an image also showing the stent. A preview images may be output. A guide wire may be used to detect the center line for vessel identification. Various detections are performed using a machine-trained classifier or classifiers.
摘要翻译: 在医疗成像中提供支架观察。 支架图像提供最小或没有空间位置的用户输入。 显示造影剂的图像与序列中的其他图像不同。 对准非对比度图像后,复合图像以增强支架。 造影剂图像用于识别血管。 造影剂图像与增强的支架或其他图像对准以确定相对血管位置。 可以在也显示支架的图像中显示血管壁的指示。 可以输出预览图像。 引导线可用于检测用于船舶识别的中心线。 使用机器训练的分类器或分类器执行各种检测。
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10.发明授权Stent marker detection using a learning based classifier in medical imaging 有权在医学成像中使用基于学习的分类器进行支架标记检测公开(公告)号:US09119573B2
公开(公告)日:2015-09-01
申请号:US12960635
申请日:2010-12-06
申请人: Xiaoguang Lu , Terrence Chen , Thomas Pohl , Peter Durlak , Dorin Comaniciu
发明人: Xiaoguang Lu , Terrence Chen , Thomas Pohl , Peter Durlak , Dorin Comaniciu
摘要: Stent marker detection is automatically performed. Stent markers in fluoroscopic images or other markers in other types of imaging are detected using a machine-learnt classifier. Hierarchal classification may be used, such as detecting individual markers with one classifier and then detecting groups of markers (e.g., a pair) with a joint classifier. The detection may be performed in a single image and without user indication of a location.
摘要翻译: 自动执行支架标记检测。 使用机器学习分类器检测透视图像或其他类型成像中的其他标记物的支架标记。 可以使用分层分类,例如用一个分类器检测单个标记,然后用联合分类器检测标记组(例如,一对)。 检测可以在单个图像中执行,而不用用户指示位置。
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