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    • 1. 发明授权
    • Detection of brain hematoma
    • 脑血肿检测
    • US5954053A
    • 1999-09-21
    • US466392
    • 1995-06-06
    • Britton ChanceClaudia Robertson
    • Britton ChanceClaudia Robertson
    • A61B5/00
    • A61B5/14553A61B5/0059A61B5/445A61B2562/0242A61B5/4519A61B5/7257
    • Systems are shown that utilize differential measurement of radiation that has migrated through migration paths between two source-detector pairs placed on the head in a manner that each path is localized in a portion of one hemisphere of the brain. Various spectrophotometer systems are also shown for in vivo examination of tissue of a human by measuring changes in electromagnetic radiation scattered and absorbed in a migration path in the tissue. Generally, the spectrophotometer systems comprise a light source for introducing the radiation into the tissue, a detector for detecting radiation that has migrated in the tissue, a processor for processing signals of the detected radiation to create processed data, and a system for determining physiological or pathophysiological changes in the tissue of interest such as bleeding or tumor.
    • 示出了利用差分测量的辐射,该辐射已经以放置在头部上的两个源 - 检测器对之间的迁移路径迁移,每个路径被定位在脑的一个半球的一部分中。 还示出了各种分光光度计系统,用于通过测量在组织中迁移路径中散射和吸收的电磁辐射的变化来体内检查人体组织。 通常,分光光度计系统包括用于将辐射引入组织的光源,用于检测已经在组织中迁移的辐射的检测器,用于处理检测到的辐射的信号以产生经处理的数据的处理器,以及用于确定生理或 感兴趣组织如出血或肿瘤的病理生理变化。
    • 2. 发明授权
    • Examination and imaging of brain cognitive functions
    • 大脑认知功能的检查和成像
    • US07983741B2
    • 2011-07-19
    • US12157185
    • 2008-06-07
    • Britton Chance
    • Britton Chance
    • A61B6/00
    • A61B5/0059A61B5/0035A61B5/0042A61B5/6834
    • A system and method for examining or imaging brain functions of a subject includes a light source and a light detector located on the exterior surface of the subject's head. The light source introduces transcranially optical radiation into the brain of a subject, and the light detector detects radiation that has migrated in a brain region from the light source to the detector. The system also provides brain stimulation and evaluates the detected radiation to determine a brain cognitive function of the subject. One embodiment of the system can detect a brain disorder. Another embodiment of the system can detect “deceit.” In addition to the optical module, the system may include other optional modules such as an EEG module, an MEG module, a thermography module, a respiratory module, a skin conductivity module, and a blood pressure module.
    • 用于检查或成像对象的脑功能的系统和方法包括位于受检者头部的外表面上的光源和光检测器。 光源将经射线的光辐射引入到受试者的脑中,并且光检测器检测已经在脑区域中从光源迁移到检测器的辐射。 该系统还提供脑刺激并评估检测到的辐射以确定受试者的脑认知功能。 该系统的一个实施例可以检测脑障碍。 该系统的另一实施例可以检测“欺骗”。除了光学模块之外,系统还可以包括其他可选模块,例如EEG模块,MEG模块,热成像模块,呼吸模块,皮肤电导率模块和 血压模块
    • 3. 发明申请
    • Detection, imaging and characterization of brain tissue
    • 脑组织的检测,成像和表征
    • US20100174160A1
    • 2010-07-08
    • US12589636
    • 2009-10-26
    • Britton Chance
    • Britton Chance
    • A61B5/1455A61B6/00
    • A61B5/14553A61B5/0042A61B5/0073A61B5/4064A61B2562/0233A61B2562/0242A61B2562/046
    • An optical examination technique employs an optical system for in vivo non-invasive transcranial examination of brain tissue of a subject. The optical system includes an optical module arranged for placement on the exterior of the head, a controller and a processor. The optical module includes an array of optical input ports and optical detection ports located in a selected geometrical pattern to provide a multiplicity of photon migration paths inside the biological tissue. Each optical input port is constructed to introduce into the examined tissue visible or infrared light emitted from a light source. Each optical detection port is constructed to provide light from the tissue to a light detector. The controller is constructed and arranged to activate one or several light sources and light detectors so that the light detector detects light that has migrated over at least one of the photon migration paths. The processor receives signals corresponding to the detected light and forms at least two data sets, a first of said data sets representing blood volume in the examined tissue region and a second of said data sets representing blood oxygenation of the examined tissue. The processor is arranged to correlate the first and second data sets to detect abnormal tissue in the examined tissue.
    • 光学检查技术采用光学系统用于受试者脑组织的体内非侵入性经颅检查。 光学系统包括布置成放置在头部外部的光学模块,控制器和处理器。 光学模块包括位于选定几何图案中的光学输入端口和光学检测端口的阵列,以在生物组织内部提供多个光子迁移路径。 每个光学输入端口构造成将被检查的组织引入可见光或从光源发射的红外光。 每个光学检测端口被构造成将来自组织的光提供给光检测器。 控制器被构造和布置成激活一个或多个光源和光检测器,使得光检测器检测已经通过至少一个光子迁移路径迁移的光。 所述处理器接收对应于检测到的光的信号并形成至少两个数据集,所述数据集中的第一个表示所检查的组织区域中的血液体积,所述数据集中的第二个表示所检查的组织的血氧。 处理器被布置成使第一和第二数据集相关联,以检测检查的组织中的异常组织。
    • 4. 发明申请
    • Optical examination of biological tissue using non-contact irradiation and detection
    • 使用非接触式照射和检测对生物组织进行光学检查
    • US20060058683A1
    • 2006-03-16
    • US11203826
    • 2005-08-13
    • Britton Chance
    • Britton Chance
    • A61B5/05A61B6/00
    • A61B5/0059A61B5/0037A61B5/0068A61B5/0091A61B5/415A61B5/418A61B5/4312A61B5/6834A61B5/7285
    • An optical system for examination of biological tissue includes a light source, a light detector, optics and electronics. The light source generates a light beam, transmitted to the biological tissue, spaced apart from the source. The light detector is located away (i.e., in a non-contact position) from the examined biological tissue and is constructed to detect light that has migrated in the examined tissue. The electronics controls the light source and the light detector, and a system separates the reflected photons (e.g., directly reflected or scattered from the surface or superficial photons) from the photons that have migrated in the examined tissue. The system prevents detection of the “noise” photons by the light detector or, after detection, eliminates the “noise” photons in the detected optical data used for tissue examination.
    • 用于生物组织检查的光学系统包括光源,光检测器,光学器件和电子器件。 光源产生一个光束,传输到生物组织,与光源隔开。 光检测器位于被检查的生物组织的远离(即处于非接触位置)的位置,并被构造成检测在被检查的组织中迁移的光。 电子装置控制光源和光检测器,并且系统将已反射的光子(例如,从表面或表面光子直接反射或散射)与已检查组织中迁移的光子分离。 该系统防止光检测器检测“噪声”光子,或者在检测之后,消除用于组织检查的检测到的光学数据中的“噪声”光子。
    • 5. 发明授权
    • Sensing and interactive drug delivery
    • 感应和互动药物递送
    • US06949081B1
    • 2005-09-27
    • US09383476
    • 1999-08-26
    • Britton Chance
    • Britton Chance
    • A61B5/00A61M31/00A61M37/00A61N1/08A61N1/30A61N1/32F04B53/00
    • A61N1/0428A61B5/0022A61B5/0059A61M37/00A61N1/08A61N1/30A61N1/327
    • An interactive drug delivery system includes a drug delivery module, an optical probe, a local controller, and an optional central controller. The drug delivery module is constructed and arranged to deliver selected amounts of a drug into a subject. The optical probe is constructed and arranged to detect in a selected tissue region of the subject a manifestation caused by the delivered drug. The local controller is constructed and arranged to receive data from or transmit data to the optical probe and the drug delivery module. The local controller is arranged to correlate optical data, received from the optical probe, to selected data and provide signals to the drug delivery module for adjusting the amounts of the drug to be delivered into the subject.
    • 交互式药物递送系统包括药物递送模块,光学探针,本地控制器和可选的中央控制器。 药物递送模块被构造和布置成将选定量的药物递送到受试者中。 光学探针被构造和布置成在对象的选定组织区域中检测由递送的药物引起的表现。 本地控制器被构造和布置成从光学探针和药物传递模块接收数据或传输数据。 本地控制器被布置成将从光学探针接收的光学数据与所选择的数据相关联,并向药物递送模块提供信号,以调整要递送到受试者的药物的量。
    • 6. 发明申请
    • Detection, imaging and characterization of breast tumors
    • 乳腺肿瘤的检测,成像和表征
    • US20050197583A1
    • 2005-09-08
    • US10983371
    • 2004-11-08
    • Britton Chance
    • Britton Chance
    • G01N21/17A61B5/00A61B5/145A61B5/1455A61B10/00A61B6/00
    • A61B5/0091A61B5/0073A61B5/14552A61B5/4312A61B2562/0233A61B2562/0242A61B2562/046
    • An optical examination technique employs an optical system for in vivo non-invasive examination of breast tissue of a subject. The optical system includes an optical module, a controller and a processor. The optical module includes an array of optical input ports and optical detection ports located in a selected geometrical pattern to provide a multiplicity of photon migration paths inside the biological tissue. Each optical input port is constructed to introduce into the examined tissue visible or infrared light emitted from a light source. Each optical detection port is constructed to provide light from the tissue to a light detector. The controller is constructed and arranged to activate one or several light sources and light detectors so that the light detector detects light that has migrated over at least one of the photon migration paths. The processor receives signals corresponding to the detected light and forms at least two data sets, a first of said data sets representing blood volume in the examined tissue region and a second of said data sets representing blood oxygenation of the examined tissue. The processor is arranged to correlate the first and second data sets to detect abnormal tissue in the examined tissue.
    • 光学检查技术采用光学系统用于体内非侵入性检查受试者的乳腺组织。 光学系统包括光学模块,控制器和处理器。 光学模块包括位于选定几何图案中的光学输入端口和光学检测端口的阵列,以在生物组织内部提供多个光子迁移路径。 每个光学输入端口构造成将被检查的组织引入可见光或从光源发射的红外光。 每个光学检测端口被构造成将来自组织的光提供给光检测器。 控制器被构造和布置成激活一个或多个光源和光检测器,使得光检测器检测已经通过至少一个光子迁移路径迁移的光。 所述处理器接收对应于检测到的光的信号并形成至少两个数据集,所述数据集中的第一个表示所检查的组织区域中的血液体积,所述数据集中的第二个表示所检查的组织的血氧。 处理器被布置成使第一和第二数据集相关联,以检测检查的组织中的异常组织。
    • 7. 发明授权
    • Transcranial examination of the brain
    • 经颅脑检查
    • US06785568B2
    • 2004-08-31
    • US10184528
    • 2002-06-27
    • Britton Chance
    • Britton Chance
    • A61B500
    • A61B5/14553A61B5/14551A61B5/14552A61B5/1459A61B5/6824A61B5/7257
    • A cognition spectrophotometer system for transcranial brain examination using electromagnetic radiation of a visible or infrared wavelength includes an optical unit, a stimulation module, a remote communication unit, and a processor. The optical unit includes a light source adapted to introduce transcranially from an input port, placed at a input location on the exterior of the head, electromagnetic radiation of the wavelength into the brain, and a light detector adapted to detect, at a detection port placed at a detection location on the exterior of the head, radiation that has migrated in the brain. The stimulation module is constructed and arranged to cause stimulation of a brain activity while introducing the radiation at the input port. The remote communication unit includes a transmitter and a receiver. The processor adapted to process signals of the detected radiation that has migrated in the brain to create processed data and determine a characteristic of the brain activity by correlating the processed data to the caused stimulation of the brain activity, wherein the processor is constructed to provide the processed data reflecting a difference between stimulated and non-stimulated tissue.
    • 使用可见光或红外波长的电磁辐射的经颅脑检查的认知分光光度计系统包括光学单元,刺激模块,远程通信单元和处理器。 所述光学单元包括光源,其适于从放置在所述头部的外部的输入位置处的输入端口经颅导入,将所述波长的电磁辐射放入脑中;以及光检测器,适于在放置的检测端口处检测 在头部外部的检测位置,已经在大脑中迁移的辐射。 刺激模块被构造和布置成在输入端口处引入辐射时引起大脑活动的刺激。 远程通信单元包括发射机和接收机。 所述处理器适于处理已经在大脑中迁移的检测到的辐射的信号以产生经处理的数据,并且通过将所处理的数据与所引起的大脑活动的刺激相关联来确定大脑活动的特征,其中所述处理器被构造为提供 处理的数据反映了刺激组织和非刺激组织之间的差异。
    • 9. 发明授权
    • Optical coupler for in vivo examination of biological tissue
    • 用于体内检查生物组织的光耦合器
    • US5987351A
    • 1999-11-16
    • US860789
    • 1997-10-06
    • Britton Chance
    • Britton Chance
    • G01N21/64A61B5/00A61B5/145A61B5/1455A61B5/1459A61B5/1464G01N21/01G01N21/27G01N21/49A61B6/00
    • A61B5/6814A61B5/0042A61B5/0077A61B5/0091A61B5/1455A61B5/14551A61B5/14552A61B5/14553A61B5/1459A61B5/4312A61B5/6853A61B2562/0233A61B2562/046A61B2562/146A61B5/0035A61B5/14532
    • For in vivo examination using a spectrophotometer that generates optical radiation and characterizes biological tissue by detecting photons that have migrated in the tissue, an array of optical fibers that transmit radiation between the spectrophotometer and biological tissue, the fibers including distal ends freely protruding from a support in the manner of bristles from a hairbrush, forming an array of optical ports to couple photons to a contiguous tissue region or to collect photons from the tissue region, the optical fibers including proximal ends arranged to optically couple the radiation with the spectrophotometer. Also shown are: fibers sized and distributed to penetrate freely extending hair on the subject's head to make optical contact over an array of points with the scalp or skin; the array of fibers constructed as a handheld probe moved and placed against the head; optical matching material coupling between the fibers and the biological tissue region; and an irradiation array with the proximal fiber ends coupled to a light source, e.g. for brain tissue examination. Also shown are fibers as a detection array, e.g. for brain tissue examination or for imaging of the brain or for use in a magnet used for magnetic resonance imaging. The spectrophotometer is shown as a continuous wave spectrophotometer, phase modulation spectrophotometer, time resolved spectrophotometer and a phased array spectrophotometer.
    • 对于使用分光光度计产生光学辐射并通过检测在组织中迁移的光子来表征生物组织的体内检查,在分光光度计和生物组织之间传输辐射的光纤阵列,包括从支撑体自由突出的远端的纤维 以来自发刷的刷毛的方式,形成光学孔的阵列以将光子耦合到连续的组织区域或从组织区域收集光子,所述光纤包括被配置为将辐射与分光光度计光学耦合的近端。 还示出了:尺寸和分布的纤维,以穿透受试者头部上的自由延伸的头发,以使与头皮或皮肤的点阵列发生光学接触; 被构造为手持探针的纤维阵列移动并放置在头部上; 纤维与生物组织区域之间的光学匹配材料耦合; 以及近端光纤末端耦合到光源的照射阵列,例如光源。 用于脑组织检查。 还示出了作为检测阵列的光纤,例如。 用于脑组织检查或用于脑的成像或用于磁共振成像的磁体中。 分光光度计显示为连续波分光光度计,相位调制分光光度计,时间分辨分光光度计和相控阵分光光度计。
    • 10. 发明授权
    • Localization of abnormal breast tissue using time-resolved spectroscopy
    • 使用时间分辨光谱法定位异常乳腺组织
    • US5899865A
    • 1999-05-04
    • US484982
    • 1995-06-07
    • Britton Chance
    • Britton Chance
    • G01N21/27A61B5/00A61B5/055A61B6/04A61B10/00G01J3/28G01N21/49G01N21/59A61B6/00
    • A61B5/0091A61B5/14552A61B5/4312G01J3/2889G01N21/49G01N21/59G01N2021/1791G01N2021/4797
    • A method of breast tissue examination using time-resolved spectroscopy includes the following steps. A support that includes an input port and an output port separated by a selected distance is positioned relative to the examined breast. Locations of the input and output ports are selected to examine a tissue region of the breast. Light pulses of a selected wavelength and duration less than a nanosecond are introduced into the breast tissue at the input port and detected over time at the detection port. Signals corresponding to photons of detected modified pulses are accumulated over time. Values of a scattering coefficient or an absorption coefficient of the examined breast tissue are calculated based on the shape of the modified pulses. The examined breast tissue is characterized based on the values of the scattering coefficient or the absorption coefficient. Absorbing or fluorescing contrast agents may be introduced into the examined tissue. This method may be used in conjunction with x-ray mammography, needle localization procedure or MRI mammography.
    • 使用时间分辨光谱的乳腺组织检查方法包括以下步骤。 包括输入端口和分隔开所选距离的输出端口的支撑件相对于被检查的乳房定位。 选择输入和输出端口的位置以检查乳房的组织区域。 所选择的波长和持续时间小于纳秒的光脉冲被引入到输入端口处的乳房组织中,并在检测端口随时间检测。 对应于检测到的修改脉冲的光子的信号随时间累积。 基于修正脉冲的形状计算检查的乳房组织的散射系数或吸收系数的值。 基于散射系数或吸收系数的值来表征检查的乳腺组织。 吸收或荧光的造影剂可以被引入被检查的组织中。 该方法可以与x射线乳房X线照相术,针定位程序或MRI乳房X线摄影结合使用。