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    • 2. 发明授权
    • Compact fluorescence endoscopy video system
    • 紧凑型荧光内窥镜视频系统
    • US06821245B2
    • 2004-11-23
    • US09905642
    • 2001-07-13
    • Richard W. ClineJohn J. P. FenglerJoachim W. Boehm
    • Richard W. ClineJohn J. P. FenglerJoachim W. Boehm
    • A61B104
    • A61B5/0071A61B1/00009A61B1/00057A61B1/00186A61B1/041A61B1/043A61B1/045A61B1/051A61B1/06A61B1/063A61B1/0638A61B1/0646A61B1/0669A61B1/2676A61B5/0084G01N21/6458G06F19/00
    • A fluorescence endoscopy video system includes a multimode light source that produces light for color and fluorescence imaging modes. Light from the light source is transmitted through an endoscope to the tissue under observation. The system also includes a compact camera for color and fluorescence imaging. Images obtained through the endoscope are optically divided and projected onto one or more image sensors by a fixed beam splitter in the camera. The fixed beam splitter eliminates the need for inserting a movable mirror into the light path between the endoscope and the image sensors. Image signals from the camera are processed in the system processor/controller where a contrast enhancement function can be applied. The contrast enhancement function increases the color contrast between normal tissue and tissue suspicious for early cancer. Finally, the system also includes a calibration feature whereby the system performance can be maintained when used with different endoscopes.
    • 荧光内窥镜视频系统包括产生用于彩色和荧光成像模式的光的多模光源。 来自光源的光通过内窥镜透射到观察的组织。 该系统还包括一个用于彩色和荧光成像的小型相机。 通过内窥镜获得的图像通过照相机中的固定分束器被光学分割并投影到一个或多个图像传感器上。 固定分束器不需要将可移动反射镜插入到内窥镜和图像传感器之间的光路中。 来自相机的图像信号在可应用对比度增强功能的系统处理器/控制器中进行处理。 对比度增强功能增加了早期癌症可疑的正常组织和组织之间的颜色对比。 最后,该系统还包括校准特征,从而当与不同的内窥镜一起使用时可以维持系统性能。
    • 3. 发明授权
    • Compact fluorescence endoscopy video system
    • 紧凑型荧光内窥镜视频系统
    • US07722534B2
    • 2010-05-25
    • US11969974
    • 2008-01-07
    • Richard W ClineJohn J. P. FenglerJoachim W. Boehm
    • Richard W ClineJohn J. P. FenglerJoachim W. Boehm
    • A61B1/04
    • A61B5/0071A61B1/00009A61B1/00057A61B1/00186A61B1/041A61B1/043A61B1/045A61B1/051A61B1/06A61B1/063A61B1/0638A61B1/0646A61B1/0669A61B1/2676A61B5/0084G01N21/6458G06F19/00
    • A fluorescence endoscopy video system includes a multimode light source that produces light for color and fluorescence imaging modes. Light from the light source is transmitted through an endoscope to the tissue under observation. The system also includes a compact camera for color and fluorescence imaging. Images obtained through the endoscope are optically divided and projected onto one or more image sensors by a fixed beam splitter in the camera. The fixed beam splitter eliminates the need for inserting a movable mirror into the light path between the endoscope and the image sensors. Image signals from the camera are processed in the system processor/controller where a contrast enhancement function can be applied. The contrast enhancement function increases the color contrast between normal tissue and tissue suspicious for early cancer. Finally, the system also includes a calibration feature whereby the system performance can be maintained when used with different endoscopes.
    • 荧光内窥镜视频系统包括产生用于彩色和荧光成像模式的光的多模光源。 来自光源的光通过内窥镜透射到观察的组织。 该系统还包括一个用于彩色和荧光成像的小型相机。 通过内窥镜获得的图像通过照相机中的固定分束器被光学分割并投影到一个或多个图像传感器上。 固定分束器不需要将可移动反射镜插入到内窥镜和图像传感器之间的光路中。 来自相机的图像信号在可应用对比度增强功能的系统处理器/控制器中进行处理。 对比度增强功能增加了早期癌症可疑的正常组织和组织之间的颜色对比。 最后,该系统还包括校准特征,从而当与不同的内窥镜一起使用时可以维持系统性能。
    • 4. 发明授权
    • Compact fluorescence endoscopy video system
    • 紧凑型荧光内窥镜视频系统
    • US07341557B2
    • 2008-03-11
    • US10899648
    • 2004-07-26
    • Richard W. ClineJohn J. P. FenglerJoachim W. Boehm
    • Richard W. ClineJohn J. P. FenglerJoachim W. Boehm
    • A61B1/04
    • A61B5/0071A61B1/00009A61B1/00057A61B1/00186A61B1/041A61B1/043A61B1/045A61B1/051A61B1/06A61B1/063A61B1/0638A61B1/0646A61B1/0669A61B1/2676A61B5/0084G01N21/6458G06F19/00
    • A fluorescence endoscopy video system includes a multimode light source that produces light for color and fluorescence imaging modes. Light from the light source is transmitted through an endoscope to the tissue under observation. The system also includes a compact camera for color and fluorescence imaging. Images obtained through the endoscope are optically divided and projected onto one or more image sensors by a fixed beam splitter in the camera. The fixed beam splitter eliminates the need for inserting a movable mirror into the light path between the endoscope and the image sensors. Image signals from the camera are processed in the system processor/controller where a contrast enhancement function can be applied. The contrast enhancement function increases the color contrast between normal tissue and tissue suspicious for early cancer. Finally, the system also includes a calibration feature whereby the system performance can be maintained when used with different endoscopes.
    • 荧光内窥镜视频系统包括产生用于彩色和荧光成像模式的光的多模光源。 来自光源的光通过内窥镜透射到观察的组织。 该系统还包括一个用于彩色和荧光成像的小型相机。 通过内窥镜获得的图像通过照相机中的固定分束器被光学分割并投影到一个或多个图像传感器上。 固定分束器不需要将可移动反射镜插入到内窥镜和图像传感器之间的光路中。 来自相机的图像信号在可应用对比度增强功能的系统处理器/控制器中进行处理。 对比度增强功能增加了早期癌症可疑的正常组织和组织之间的颜色对比。 最后,该系统还包括校准特征,从而当与不同的内窥镜一起使用时可以维持系统性能。
    • 6. 发明申请
    • COMPACT FLUORESCENCE ENDOSCOPY VIDEO SYSTEM
    • 紧致荧光内窥镜视频系统
    • US20080228037A1
    • 2008-09-18
    • US11969974
    • 2008-01-07
    • Richard W. ClineJohn J.P. FenglerJoachim W. Boehm
    • Richard W. ClineJohn J.P. FenglerJoachim W. Boehm
    • A61B1/04
    • A61B5/0071A61B1/00009A61B1/00057A61B1/00186A61B1/041A61B1/043A61B1/045A61B1/051A61B1/06A61B1/063A61B1/0638A61B1/0646A61B1/0669A61B1/2676A61B5/0084G01N21/6458G06F19/00
    • A fluorescence endoscopy video system includes a multimode light source that produces light for color and fluorescence imaging modes. Light from the light source is transmitted through an endoscope to the tissue under observation. The system also includes a compact camera for color and fluorescence imaging. Images obtained through the endoscope are optically divided and projected onto one or more image sensors by a fixed beam splitter in the camera. The fixed beam splitter eliminates the need for inserting a movable mirror into the light path between the endoscope and the image sensors. Image signals from the camera are processed in the system processor/controller where a contrast enhancement function can be applied. The contrast enhancement function increases the color contrast between normal tissue and tissue suspicious for early cancer. Finally, the system also includes a calibration feature whereby the system performance can be maintained when used with different endoscopes.
    • 荧光内窥镜视频系统包括产生用于彩色和荧光成像模式的光的多模光源。 来自光源的光通过内窥镜透射到观察的组织。 该系统还包括一个用于彩色和荧光成像的小型相机。 通过内窥镜获得的图像通过照相机中的固定分束器被光学分割并投影到一个或多个图像传感器上。 固定分束器不需要将可移动反射镜插入到内窥镜和图像传感器之间的光路中。 来自相机的图像信号在可应用对比度增强功能的系统处理器/控制器中进行处理。 对比度增强功能增加了早期癌症可疑的正常组织和组织之间的颜色对比。 最后,该系统还包括校准特征,从而当与不同的内窥镜一起使用时可以维持系统性能。
    • 7. 发明申请
    • COMPACT FLUORESCENCE ENDOSCOPY VIDEO SYSTEM
    • 紧致荧光内窥镜视频系统
    • US20100210904A1
    • 2010-08-19
    • US12761462
    • 2010-04-16
    • Richard W. ClineJohn J.P. FenglerJoachim W. Boehm
    • Richard W. ClineJohn J.P. FenglerJoachim W. Boehm
    • A61B1/04
    • A61B5/0071A61B1/00009A61B1/00057A61B1/00186A61B1/041A61B1/043A61B1/045A61B1/051A61B1/06A61B1/063A61B1/0638A61B1/0646A61B1/0669A61B1/2676A61B5/0084G01N21/6458G06F19/00
    • A fluorescence endoscopy video system includes a multimode light source that produces light for color and fluorescence imaging modes. Light from the light source is transmitted through an endoscope to the tissue under observation. The system also includes a compact camera for color and fluorescence imaging. Images obtained through the endoscope are optically divided and projected onto one or more image sensors by a fixed beam splitter in the camera. The fixed beam splitter eliminates the need for inserting a movable mirror into the light path between the endoscope and the image sensors. Image signals from the camera are processed in the system processor/controller where a contrast enhancement function can be applied. The contrast enhancement function increases the color contrast between normal tissue and tissue suspicious for early cancer. Finally, the system also includes a calibration feature whereby the system performance can be maintained when used with different endoscopes.
    • 荧光内窥镜视频系统包括产生用于彩色和荧光成像模式的光的多模光源。 来自光源的光通过内窥镜透射到观察的组织。 该系统还包括一个用于彩色和荧光成像的小型相机。 通过内窥镜获得的图像通过照相机中的固定分束器被光学分割并投影到一个或多个图像传感器上。 固定分束器不需要将可移动反射镜插入到内窥镜和图像传感器之间的光路中。 来自相机的图像信号在可应用对比度增强功能的系统处理器/控制器中进行处理。 对比度增强功能增加了早期癌症可疑的正常组织和组织之间的颜色对比。 最后,该系统还包括校准特征,从而当与不同的内窥镜一起使用时可以维持系统性能。