公开(公告)号：US09241609B2

公开(公告)日：2016-01-26

申请号：US13605190

申请日：2012-09-06

Applicant: Ezra Navok ,  Shai Finkman ,  Christopher A. Cook

Inventor： Ezra Navok ,  Shai Finkman ,  Christopher A. Cook

IPC: A61B1/05 ,  A61B1/00 ,  H04N7/18 ,  H04N5/225 ,  A61B1/045 ,  A61B1/04 ,  H04N5/232

CPC classification number: A61B1/00006 ,  A61B1/00009 ,  H04N5/2253 ,  H04N5/23209 ,  H04N7/185 ,  H04N2005/2255

Abstract: A method and apparatus for conversion of signals from a first type of image sensor to a second type of camera control unit is presented. A first interface is provided for enabling electrical communication between the conversion module and an image sensor, the image sensor being interchangeable between a Complimentary Metal Oxide Semiconductor (CMOS) and a Charge Coupled Device (CCD) image sensor. A second interface is provided for enabling electrical communication between the conversion module and a camera control unit (CCU). Also provided is conversion circuitry in communication with the first interface and the second interface, the conversion circuitry receiving signals of a first type from the first interface, converting the signals of a first type to signals of a second type and providing the signals of a second type to the second interface.

Abstract translation: 提出了一种用于将信号从第一类型的图像传感器转换到第二类型的照相机控制单元的方法和装置。 第一接口被提供用于实现转换模块和图像传感器之间的电通信，图像传感器可在免费金属氧化物半导体（CMOS）和电荷耦合器件（CCD）图像传感器之间互换。 提供了第二接口，用于实现转换模块和相机控制单元（CCU）之间的电通信。 还提供了与第一接口和第二接口通信的转换电路，转换电路从第一接口接收第一类型的信号，将第一类型的信号转换成第二类型的信号并提供第二类型的信号 键入第二个界面。

公开(公告)号：US07410462B2

公开(公告)日：2008-08-12

申请号：US11300068

申请日：2005-12-13

Applicant: Ezra Navok ,  Gregory Konstorum ,  Christopher A. Cook ,  Tai Lin Fan

Inventor： Ezra Navok ,  Gregory Konstorum ,  Christopher A. Cook ,  Tai Lin Fan

IPC: A61B1/00 ,  A61B1/04

CPC classification number: A61B1/00096 ,  A61B1/00066 ,  A61B1/0008 ,  A61B1/0011 ,  A61B1/00142 ,  A61B1/042 ,  A61B1/051 ,  A61B1/0623 ,  A61B1/0676 ,  A61B1/0684 ,  A61B1/07

Abstract: Hermetically sealed enclosures and constructions are disclosed for use in endoscopic systems, particularly endoscopic systems with electronic imaging and illumination systems in the enclosures. Compound optical windows are also disclosed for use in the systems. The compound optical windows may have separate panes for an imaging system and an illumination system, and contrast-reducing optical boundaries are between panes.

Abstract translation: 公开了密封的外壳和结构用于内窥镜系统，特别是在外壳中具有电子成像和照明系统的内窥镜系统。 还公开了复合光学窗口用于该系统。 复合光学窗口可以具有用于成像系统和照明系统的单独的窗格，并且对比度减小的光学边界在窗格之间。

公开(公告)号：US20210386479A1

公开(公告)日：2021-12-16

申请号：US17343059

申请日：2021-06-09

Applicant: Daniel Frank Massimini ,  Roger W. McGowan ,  Haiping Shao ,  Darrin Dale Beekman ,  Christopher A. Cook

Inventor： Daniel Frank Massimini ,  Roger W. McGowan ,  Haiping Shao ,  Darrin Dale Beekman ,  Christopher A. Cook

IPC: A61B18/24 ,  A61B5/00 ,  A61B18/04 ,  A61B18/14

Abstract: A catheter system (100) for placement within a treatment site (106) at a vessel wall (208A) or a heart valve includes an energy source (124), a balloon (104), an energy guide (122A), and a tissue identification system (142). The energy source (124) generates energy. The balloon (104) is positionable substantially adjacent to the treatment site (106). The balloon (104) has a balloon wall (130) that defines a balloon interior (146). The balloon (104) is configured to retain a balloon fluid (132) within the balloon interior (146). The energy guide (122A) is configured to receive energy from the energy source (124) and guide the energy into the balloon interior (146) so that plasma is formed in the balloon fluid (132) within the balloon interior (146). The tissue identification system (142) is configured to spectroscopically analyze tissue within the treatment site (106). A method for treating a treatment site (106) within or adjacent to a vessel wall (208A) or a heart valve can utilize any of the catheter systems (100) described herein.

公开(公告)号：US20140063217A1

公开(公告)日：2014-03-06

申请号：US13605190

申请日：2012-09-06

Applicant: Ezra Navok ,  Shai Finkman ,  Christopher A. Cook

Inventor： Ezra Navok ,  Shai Finkman ,  Christopher A. Cook

IPC: H04N7/18

CPC classification number: A61B1/00006 ,  A61B1/00009 ,  H04N5/2253 ,  H04N5/23209 ,  H04N7/185 ,  H04N2005/2255

Abstract: A method and apparatus for conversion of signals from a first type of image sensor to a second type of camera control unit is presented. A first interface is provided for enabling electrical communication between the conversion module and an image sensor, the image sensor being interchangeable between a Complimentary Metal Oxide Semiconductor (CMOS) and a Charge Coupled Device (CCD) image sensor. A second interface is provided for enabling electrical communication between the conversion module and a camera control unit (CCU). Also provided is conversion circuitry in communication with the first interface and the second interface, the conversion circuitry receiving signals of a first type from the first interface, converting the signals of a first type to signals of a second type and providing the signals of a second type to the second interface.

Abstract translation: 提出了一种用于将信号从第一类型的图像传感器转换到第二类型的照相机控制单元的方法和装置。 第一接口被提供用于实现转换模块和图像传感器之间的电通信，图像传感器可在免费金属氧化物半导体（CMOS）和电荷耦合器件（CCD）图像传感器之间互换。 提供了第二接口，用于实现转换模块和相机控制单元（CCU）之间的电通信。 还提供了与第一接口和第二接口通信的转换电路，转换电路从第一接口接收第一类型的信号，将第一类型的信号转换成第二类型的信号并提供第二类型的信号 键入第二个界面。

公开(公告)号：US08568300B2

公开(公告)日：2013-10-29

申请号：US12167901

申请日：2008-07-03

Applicant: Ezra Navok ,  Christopher A. Cook

Inventor： Ezra Navok ,  Christopher A. Cook

IPC: A61B1/00 ,  A61B1/04

CPC classification number: A61B1/00096 ,  A61B1/00066 ,  A61B1/0008 ,  A61B1/0011 ,  A61B1/00142 ,  A61B1/042 ,  A61B1/051 ,  A61B1/0623 ,  A61B1/0676 ,  A61B1/0684 ,  A61B1/07

Abstract: Hermetically sealed enclosures and constructions are disclosed for use in endoscopic systems, particularly endoscopic systems with electronic imaging and illumination systems in the enclosures. Compound optical windows are also disclosed for use in the systems. The compound optical windows may have separate panes for an imaging system and an illumination system, and contrast-reducing optical boundaries are between panes.

Abstract translation: 公开了密封的外壳和结构用于内窥镜系统，特别是在外壳中具有电子成像和照明系统的内窥镜系统。 还公开了复合光学窗口用于该系统。 复合光学窗口可以具有用于成像系统和照明系统的单独的窗格，并且对比度减小的光学边界在窗格之间。

公开(公告)号：US20080300463A1

公开(公告)日：2008-12-04

申请号：US12167901

申请日：2008-07-03

Applicant: Ezra Navok ,  Gregory Konstorum ,  Christopher A. Cook ,  Tai Lin Fan

Inventor： Ezra Navok ,  Gregory Konstorum ,  Christopher A. Cook ,  Tai Lin Fan

IPC: A61B1/06

CPC classification number: A61B1/00096 ,  A61B1/00066 ,  A61B1/0008 ,  A61B1/0011 ,  A61B1/00142 ,  A61B1/042 ,  A61B1/051 ,  A61B1/0623 ,  A61B1/0676 ,  A61B1/0684 ,  A61B1/07

Abstract: Hermetically sealed enclosures and constructions are disclosed for use in endoscopic systems, particularly endoscopic systems with electronic imaging and illumination systems in the enclosures. Compound optical windows are also disclosed for use in the systems. The compound optical windows may have separate panes for an imaging system and an illumination system, and contrast-reducing optical boundaries are between panes.

Abstract translation: 公开了密封的外壳和结构用于内窥镜系统，特别是在外壳中具有电子成像和照明系统的内窥镜系统。 还公开了复合光学窗口用于该系统。 复合光学窗口可以具有用于成像系统和照明系统的单独的窗格，并且对比度减小的光学边界在窗格之间。

公开(公告)号：US06650916B2

公开(公告)日：2003-11-18

申请号：US10067783

申请日：2002-02-08

Applicant: Christopher A. Cook ,  Mark M. Meyers

Inventor： Christopher A. Cook ,  Mark M. Meyers

IPC: A61B500

CPC classification number: A61B5/14535 ,  A61B5/0059 ,  G01N15/0211

Abstract: An in vivo imaging device having an illumination system that creates a virtual source within a tissue region of a subject in a non-invasive manner. The illumination system transforms a maximum amount of illumination energy from a light source into a high contrast illumination pattern. The illumination pattern is projected onto the object plane in a manner that maximizes the depth to which clear images of sub-surface features can be obtained. The high intensity portion of the illumination pattern is directed onto the object plane outside the field of view of an image capturing device that detects the image. In this configuration, scattered light from within the tissue region interacts with the object being imaged. This illumination technique provides for a high contrast image of sub-surface phenomena such as vein structure, blood flow within veins, gland structure, etc.

公开(公告)号：US5120111A

公开(公告)日：1992-06-09

申请号：US714918

申请日：1991-06-13

Applicant: Christopher A. Cook

Inventor： Christopher A. Cook

IPC: A47C4/54

CPC classification number: A47C4/54 ,  Y10S297/03

Abstract: An inflatable portable seat is readily transported for use in a desired environment, with the seat including planar top and bottom walls and an arcuate forward wall. An inflation valve is arranged for inflation of the seat structure, wherein the seat structure is arranged for interfolding and transported in an associated container. A modification of the seat includes an elastomeric strap for mounting of the container when the seat is inflated for convenient storage of the container and may be further provided with a polymeric foam sleeve mounted about the container for removal from the container and support of a beverage container therewithin and mounted within a further elastomeric strap within a side wall of the seat structure when inflated.

Abstract translation: 充气便携式座椅易于运输，以便在期望的环境中使用，座椅包括平坦的顶壁和底壁以及弧形的前壁。 布置充气阀用于座椅结构的膨胀，其中座椅结构布置成在相关联的容器中进行折叠和运输。 座椅的变型包括用于在座椅充气以便容器容纳时安装容器的弹性带，并且还可以设置有围绕容器安装的聚合物泡沫套筒，用于从容器中取出并支撑饮料容器 并在充气时安装在座椅结构的侧壁内的另一弹性带内。

公开(公告)号：US20110230717A1

公开(公告)日：2011-09-22

申请号：US12661504

申请日：2010-03-18

Applicant: Gregory S. Konstorum ,  Christopher A. Cook ,  Kazutaka Matsumoto

Inventor： Gregory S. Konstorum ,  Christopher A. Cook ,  Kazutaka Matsumoto

IPC: A61B1/005 ,  B23P17/04 ,  H01R43/00 ,  B32B37/06

CPC classification number: A61B1/005 ,  A61B1/0011 ,  A61B1/307 ,  Y10T29/49002 ,  Y10T29/49826

Abstract: An endoscope including a deflection section, an objective head, a deflection section cover and a sleeve. The deflection section comprises a flexible frame. The objective head is connected to a front end of the deflection section. The deflection section cover extends over the deflection section and extends over a portion of the objective head. The sleeve is located on an exterior side of the objective head and an exterior side of the deflection section cover at a joint between the objective head and the deflection section cover. The sleeve compresses the deflection section cover against the objective head. Another compression sleeve can be located on an exterior side of a shaft cover and the deflection section cover at a second joint, wherein the second sleeve compresses the shaft cover and the deflection section cover against a frame of a shaft of the endoscope.

Abstract translation: 一种内窥镜，包括偏转部，物镜头，偏转部罩和套筒。 偏转部分包括柔性框架。 物镜头连接到偏转部分的前端。 偏转部分覆盖件在偏转部分上延伸并延伸到物镜头部分上。 套筒位于物镜头的外侧，偏转部分盖的外侧位于物镜头与偏转部分盖之间的接合处。 套筒将偏转部分盖压靠在物镜头上。 另一个压缩套筒可以位于轴罩的外侧，而第二接头处设有偏转部分盖，其中第二套筒将轴罩和偏转部分盖压靠在内窥镜的轴的框架上。

公开(公告)号：US06175750B1

公开(公告)日：2001-01-16

申请号：US09271993

申请日：1999-03-19

Applicant: Christopher A. Cook ,  Warren Groner ,  Richard G. Nadeau

Inventor： Christopher A. Cook ,  Warren Groner ,  Richard G. Nadeau

IPC: A61B500

CPC classification number: G01J3/28 ,  G01J3/0213 ,  G01J3/0224 ,  G01J3/0264 ,  G01J2003/2866

Abstract: The invention comprises a system and method of calibrating a reflected spectral imaging apparatus used for analysis of living tissue. In addition to the reflected spectral imaging apparatus itself, the calibration apparatus comprises an optical filter that is placed between the light source used in the imaging apparatus and the object under analysis, and a calibration module. The filter is fabricated such that when the light is passed through the filter, an image is projected onto the focal plane where imaging is to take place within the object. The image projected by the filter comprises a plurality of areas, each having a different known optical density. For each area, the calibration module measures the intensity of the light reflected from the area and maps the light intensity measurement to the optical density known to be present at the area. This correspondence of light intensity measurements and known optical densities is then used to calibrate the reflected spectral imaging apparatus.

Abstract translation: 本发明包括校准用于生物组织分析的反射光谱成像装置的系统和方法。 除了反射的光谱成像装置本身之外，校准装置还包括放置在成像装置中使用的光源和分析对象之间的光学滤波器和校准模块。 过滤器被制造成使得当光通过过滤器时，将图像投影到焦平面上，其中成像将在物体内发生。 由滤光器投影的图像包括多个区域，每个区域具有不同的已知光密度。 对于每个区域，校准模块测量从该区域反射的光的强度，并将光强测量映射到已知存在于该区域的光密度。 然后将光强测量和已知光密度的对应关系用于校准反射的光谱成像装置。