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    • 2. 发明授权
    • CO.sub.2 diagnostic monitor with rupturable container
    • 具有可破裂容器的二氧化碳诊断监视器
    • US5156159A
    • 1992-10-20
    • US505689
    • 1990-04-09
    • Samsun LampotangJoachim S. GravensteinNikolaus GravensteinMichael J. BannerDietrich Gravenstein
    • Samsun LampotangJoachim S. GravensteinNikolaus GravensteinMichael J. BannerDietrich Gravenstein
    • A61M16/04
    • A61M16/0488A61M2016/0413
    • A diagnostic monitor checks the carbon dioxide (CO.sub.2) content of a gas exiting a patient during endotracheal or esophageal intubation. A plurality of composition portions substantially change color in response to exposure to the carbon dioxide. The composition portions change color in response to different times of exposure to carbon dioxide. A magnifying or condensing lens may be positioned on the monitor to enhance viewing of the color change. The monitor may advantageously be made part of an intubation system through which the gases from a patient exit the patient. The differences in time of exposure needed to cause the color change may be accomplished by using semipermeable membranes having differing thicknesses, CO.sub.2 permeabilities, and/or surface areas with each membrane corresponding to a particular one of the composition portions. An arrangement is provided whereby the monitor is automatically activated by the normal assembly steps of a patient breathing circuit.
    • 诊断监测器检查在气管插管或食管插管期间离开患者的气体的二氧化碳(CO2)含量。 多个组合物部分基于暴露于二氧化碳而显着改变颜色。 组合物部分响应于暴露于二氧化碳的不同时间而改变颜色。 可以将放大或聚光透镜放置在监视器上以增强对颜色变化的观察。 可以有利地将监护仪制成插管系统的一部分,来自患者的气体通过该插管系统离开患者。 导致颜色变化所需的曝光时间差异可以通过使用具有不同厚度的半透膜,CO 2渗透性和/或表面积来实现,其中每个膜对应于组合物部分的特定一个。 提供了一种布置,由此通过患者呼吸回路的正常组装步骤自动启动监视器。
    • 6. 发明授权
    • Methods and devices for noninvasive measurement of energy absorbers in blood
    • 用于无创测量血液中能量吸收器的方法和装置
    • US08818472B2
    • 2014-08-26
    • US12679721
    • 2008-09-29
    • Dietrich GravensteinMark RiceSamsun LampotangNikolaus GravensteinLori Deitte
    • Dietrich GravensteinMark RiceSamsun LampotangNikolaus GravensteinLori Deitte
    • A61B5/00
    • A61B8/06A61B5/14552
    • Various embodiments of the present invention include devices for use in determining the concentration of a tissue energy absorber (e.g., hemoglobin) in an individual's blood. In particular embodiments, the device includes a photometric device (e.g., a pulse oximeter) and an imaging device (e.g., an ultrasound imaging device or other suitable imaging device), and the device is adapted for: (A) using the photometric device to measure a change in mass of the tissue energy absorber within a particular volume of the individual's blood between a first point in time and a second point in time, the particular volume of blood being blood within a particular portion of at least one vascular structure, the vascular structure comprising at least one of the individual's vessels (e.g., at least one of the individual's arteries); (B) using an ultrasound imaging device to measure a change in interior volume, between the first point in time and the second point in time, of the particular portion of the vascular structure; and (C) using both the measured change in the mass of the tissue energy absorber, and the measured change in interior volume to determine at least an approximate blood total concentration of the tissue energy absorber within the individual's blood.
    • 本发明的各种实施方案包括用于确定个体血液中的组织能量吸收剂(例如,血红蛋白)的浓度的装置。 在特定实施例中,该装置包括测光装置(例如,脉搏血氧计)和成像装置(例如,超声成像装置或其它合适的成像装置),并且该装置适于:(A)使用光度装置 测量在第一时间点和第二时间点之间的个体血液的特定体积内的组织能量吸收器的质量变化,血液的特定体积是至少一个血管结构的特定部分内的血液, 血管结构包括个体血管中的至少一个(例如,个体动脉中的至少一个); (B)使用超声成像装置来测量血管结构的特定部分的第一时间点和第二时间点之间的内部体积的变化; 和(C)使用所测量的组织能量吸收器的质量的变化和所测量的内部体积的变化来确定个体血液内的组织能量吸收器的至少近似血液总浓度。
    • 7. 发明授权
    • Plastic optical fiber airway imaging system
    • 塑料光纤气道成像系统
    • US6115523A
    • 2000-09-05
    • US725779
    • 1996-10-04
    • Won Young ChoiDietrich GravensteinSamsun LampotangRichard MelkerJames K. Walker
    • Won Young ChoiDietrich GravensteinSamsun LampotangRichard MelkerJames K. Walker
    • A61B1/04A61B1/267A61B1/273G02B6/06
    • A61B1/2676A61B1/0017A61B1/07A61B1/042
    • The subject invention pertains to a system for imaging the human airway having highly advantageous optical and physical characteristics. In a specific embodiment, the human airway can be imaged during the intubation procedure. The excellent characteristics of the imaging system of the subject invention result, in part, from the use of plastic optic fibers. Plastic fibers are more robust than the glass optical fibers used in currently available imaging systems, and are therefore capable of being bent and/or twisted with less concern of breakage. In addition, the lower costs of plastic fibers enables scopes of the subject invention, in a specific embodiment, to be manufactured for single patient use thereby eliminating the requirement for cleaning, special care, the maintenance of expensive inventory, and most importantly eliminating the opportunity for cross contamination between patients. A further aspect of the subject invention concerns a novel sheath which covers the portion of the imaging system which enters the patient. In this case, the sheath and its optional associated fiber optic illumination is disposable after each use.
    • 本发明涉及一种用于对具有非常有利的光学和物理特性的人气道成像的系统。 在一个具体实施例中,人气道可以在插管过程中成像。 本发明的成像系统的优异特征部分地导致使用塑料光纤。 塑料纤维比当前可用的成像系统中使用的玻璃光纤更坚固,因此能够在较少的断裂的情况下弯曲和/或扭曲。 此外,由于塑料纤维的成本较低,在一个具体实施例中,本发明的范围能够为单个患者使用而制造,从而消除了对清洁,特别护理,维护昂贵库存的要求,最重要的是消除了机会 用于患者之间的交叉污染。 本发明的另一方面涉及一种新颖的护套,其覆盖进入患者的成像系统的部分。 在这种情况下,护套和其可选的相关联的光纤照明在每次使用之后是一次性的。
    • 8. 发明授权
    • Imaging scope
    • 成像范围
    • US06322498B1
    • 2001-11-27
    • US09007939
    • 1998-01-16
    • Dietrich GravensteinSamsun LampotangRichard MelkerAndrea Gabrielli
    • Dietrich GravensteinSamsun LampotangRichard MelkerAndrea Gabrielli
    • A61B1267
    • A61B1/2676A61B1/00165A61B1/042A61B1/05A61B1/07
    • The subject invention pertains to a system for imaging the human airway having highly advantageous optical, mechanical, ergonomical and physical characteristics. In a specific embodiment, the human airway can be imaged during the intubation procedure. The subject imaging scopes can incorporate a malleable stylet which retains its shape when bent, in order to facilitate intubation of a patient. In a preferred embodiment, a solid metal stylet, for example, a conventional endotracheal tube stylet, can be utilized. In a specific embodiment the subject intubation scope allows for a user to utilize conventional techniques for the insertion of an endotracheal tube, reducing the training needed for use of the subject intubation scope. Preferably, the subject imaging scopes also incorporate at least one illumination fiber to convey light to the distal tip of the subject imaging scopes, for illumination of the objects to be imaged.
    • 本发明涉及一种用于对具有高度有利的光学,机械,人体工程学和物理特性的人类气道成像系统。 在一个具体实施例中,人气道可以在插管过程中成像。 主题成像范围可以包括弯曲时保持其形状的可延展的管心针,以便于患者的插管。 在优选实施例中,可以使用固体金属探针,例如常规的气管内导管探针。 在具体实施例中,所述插管范围允许使用者利用常规技术来插入气管插管,减少使用所述受试者插管范围所需的训练。 优选地,本发明的成像范围还包括至少一个照明光纤以将光传送到目标成像范围的远侧末端,以照射待成像的物体。
    • 9. 发明申请
    • Imaging scope
    • 成像范围
    • US20050182297A1
    • 2005-08-18
    • US10982154
    • 2004-11-05
    • Dietrich GravensteinSamsun LampotangRichard Melker
    • Dietrich GravensteinSamsun LampotangRichard Melker
    • A61B1/04A61B1/267A61M16/04A61B1/00A62B9/06
    • A61B1/2676A61B1/00167A61B1/0017A61B1/042A61B1/07A61B5/064
    • Disclosed is an intubation imaging stylet for intubating a patient by use in a tube/imaging stylet combination, said imaging stylet comprising: a malleable stylet having a longitudinal axis and a proximal end and a distal end; a flexible image guide having a longitudinal axis and a proximal end and a distal end, said image guide being connected to said stylet such that a portion of said image guide runs parallel to a portion of said stylet along the longitudinal axis of said stylet and such that the distal end of said image guide is co-extensive with the distal end of said stylet; and at least one flexible illumination fiber having a proximal end and a distal end, said illumination fiber being connected to said stylet such that a portion of said illumination fiber runs parallel to a portion of said stylet along the longitudinal axis of said stylet and such that the distal end of said illumination fiber is co-extensive with the distal end of said stylet; such that in use, said imaging stylet is disposed within a tube for intubating a patient thereby forming an imaging stylet/tube combination which in use is held by gripping the tube in a pen-like fashion. The imaging stylet/tube combination is thus in use held in one hand, freeing the other hand of the user for other tasks if necessary, as well as permitting intubation in the conventional manner. To facilitate this, the center of gravity of the imaging stylet/tube combination is located in essentially the same location along the tube as with a conventional stylet/tube combination.
    • 公开了一种插管成像探针,用于通过使用管/成像探针组合来插入患者,所述成像探针包括:具有纵向轴线和近端和远端的可延展的探针; 具有纵向轴线和近端和远端的柔性图像引导件,所述图像引导件连接到所述探针,使得所述图像引导件的一部分沿着所述探针的纵向轴线平行于所述探针的一部分平行, 所述图像引导件的远端与所述探针的远端共同延伸; 以及至少一个具有近端和远端的柔性照明光纤,所述照明光纤连接到所述探针,使得所述照明光纤的一部分沿着所述探针的纵向轴线平行于所述探针的一部分延伸,并且使得 所述照明光纤的远端与所述探针的远端共同延伸; 使得在使用中,所述成像探针设置在用于插管患者的管内,从而形成成像探针/管组合,其在使用中通过以笔状夹持管来保持。 因此,一方面使用成像探针/管组合,如果必要,释放用户的另一只手用于其他任务,并且以常规方式允许插管。 为了促进这一点,成像探针/管组合的重心位于沿着管的基本相同的位置,与传统的探针/管组合一样。
    • 10. 发明申请
    • Novel Methods and Devices for Noninvasive Measurement of Energy Absorbers in Blood
    • 用于无创测量血液中能量吸收器的新方法和设备
    • US20100286515A1
    • 2010-11-11
    • US12679721
    • 2008-09-29
    • Dietrich GravensteinMark RiceSanisun LanipotangNikolaus GravensteinLori Deitte
    • Dietrich GravensteinMark RiceSanisun LanipotangNikolaus GravensteinLori Deitte
    • A61B8/00
    • A61B8/06A61B5/14552
    • Various embodiments of the present invention include devices for use in determining the concentration of a tissue energy absorber (e.g., hemoglobin) in an individual's blood. In particular embodiments, the device includes a photometric device (e.g., a pulse oximeter) and an imaging device (e.g., an ultrasound imaging device or other suitable imaging device), and the device is adapted for: (A) using the photometric device to measure a change in mass of the tissue energy absorber within a particular volume of the individual's blood between a first point in time and a second point in time, the particular volume of blood being blood within a particular portion of at least one vascular structure, the vascular structure comprising at least one of the individual's vessels (e.g., at least one of the individual's arteries); (B) using an ultrasound imaging device to measure a change in interior volume, between the first point in time and the second point in time, of the particular portion of the vascular structure; and (C) using both the measured change in the mass of the tissue energy absorber, and the measured change in interior volume to determine at least an approximate blood total concentration of the tissue energy absorber within the individual's blood.
    • 本发明的各种实施方案包括用于确定个体血液中的组织能量吸收剂(例如,血红蛋白)的浓度的装置。 在特定实施例中,该装置包括测光装置(例如,脉搏血氧计)和成像装置(例如,超声成像装置或其它合适的成像装置),并且该装置适于:(A)使用光度装置 测量在第一时间点和第二时间点之间的个体血液的特定体积内的组织能量吸收器的质量变化,血液的特定体积是至少一个血管结构的特定部分内的血液, 血管结构包括个体血管中的至少一个(例如,个体动脉中的至少一个); (B)使用超声成像装置来测量血管结构的特定部分的第一时间点和第二时间点之间的内部体积的变化; 和(C)使用所测量的组织能量吸收器的质量的变化和所测量的内部体积的变化来确定个体血液内的组织能量吸收器的至少近似血液总浓度。