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    • 1. 发明申请
    • BIOLOGICAL COMPONENT MEASURING APPARATUS AND METHOD
    • 生物组分测量装置和方法
    • US20070219436A1
    • 2007-09-20
    • US11538230
    • 2006-10-03
    • Tomohiro TakaseIsao NawataIkuo UematsuKayoko Oomiya
    • Tomohiro TakaseIsao NawataIkuo UematsuKayoko Oomiya
    • A61B5/00
    • A61B5/14532
    • It is an object to provide a measuring apparatus and method which can easily measure an amount of a biological component such as glucose without requiring an ordinary person who is to be measured to have special knowledge and techniques. A measuring apparatus according to an embodiment of the present invention uses a biological component sensor including a plate-shaped sensor chip 112 having a biological component sensing function and a sensor chip holding frame 111 for surrounding and holding the sensor chip 112, and the biological component sensor is disposed in a measuring apparatus main body housing 110. A fixed click-shaped engaging member 118 and a movable click-shaped engaging member 119 are disposed on a sensor chip support table 124 fixed to the measuring apparatus main body housing 110, and they fix and support the sensor chip holding frame 111 and the sensor chip can be thus replaced. The biological component sensor of the measuring apparatus is caused to come in contact with a forearm portion 100 of a human body and a biological component exuded from a contact part of the forearm portion is caused to come in contact with the sensor chip to change the physical or chemical surface property of the sensor chip, thereby measuring the change through an irradiation of an inspection light. Thus, a concentration of the biological component is calculated.
    • 本发明的目的是提供一种可以容易地测量诸如葡萄糖等生物成分的量的测量装置和方法,而不需要测量的普通人具有特殊的知识和技术。 根据本发明的实施例的测量装置使用包括具有生物部件感测功能的板状传感器芯片112和用于围绕和保持传感器芯片112的传感器芯片保持框架111的生物部件传感器和生物部件 传感器设置在测量装置主体外壳110中。 在固定在测量装置本体壳体110上的传感器芯片支撑台124上设置有固定的点击状的卡合部件118和活动卡爪部件119,并且固定并支撑传感器芯片固定框架111和传感器 芯片可以这样替换。 使测量装置的生物部件传感器与人体的前臂部分100接触,并且使从前臂部分的接触部分渗出的生物成分与传感器芯片接触以改变物理 或化学表面性质,从而通过检查光的照射来测量变化。 因此,计算生物成分的浓度。
    • 2. 发明授权
    • Biological component measuring apparatus and method
    • 生物成分测量装置及方法
    • US07738934B2
    • 2010-06-15
    • US11538230
    • 2006-10-03
    • Tomohiro TakaseIsao NawataIkuo UematsuKayoko Oomiya
    • Tomohiro TakaseIsao NawataIkuo UematsuKayoko Oomiya
    • A61B5/145
    • A61B5/14532
    • A measuring apparatus uses a biological component sensor including a plate-shaped sensor chip having a biological component sensing function and a sensor chip holding frame surrounding and holding the sensor chip. The biological component sensor is disposed in a measuring apparatus main body housing. A fixed engaging member and movable engaging member disposed on a sensor chip support table fixed to the measuring apparatus main body housing fix and support the sensor chip holding frame, and the sensor chip can be thus replaced. The biological component sensor contacts a forearm portion of a human body, and a biological component exuded from a contact part of the forearm portion is caused to contact the sensor chip to change a physical or chemical surface property of the sensor chip, thereby measuring the change through an irradiation of an inspection light to calculate concentration of the biological component.
    • 测量装置使用包括具有生物成分感测功能的板状传感器芯片和围绕并保持传感器芯片的传感器芯片保持框架的生物体成分传感器。 生物体传感器配置在测量装置主体壳体内。 设置在传感器芯片支撑台上的固定接合构件和可移动接合构件,固定到测量装置主体外壳固定并支撑传感器芯片保持框架,并且可以更换传感器芯片。 生物成分传感器接触人体的前臂部分,并且从前臂部分的接触部分渗出的生物成分与传感器芯片接触以改变传感器芯片的物理或化学表面性质,从而测量变化 通过照射检查光来计算生物成分的浓度。
    • 8. 发明申请
    • OPTICAL INSPECTION METHOD AND OPTICAL INSPECTION APPARATUS USED FOR THE SAME
    • 光学检测方法和光学检测装置
    • US20070146718A1
    • 2007-06-28
    • US11565897
    • 2006-12-01
    • Tomohiro TAKASEIkuo UematsuIsao Nawata
    • Tomohiro TAKASEIkuo UematsuIsao Nawata
    • G01N21/55
    • G01N21/7703G01N21/553G01N21/648
    • An inspection method using a portable optical inspection apparatus adapted to be driven by a battery and capable of producing an accurate sensing result without being adversely affected by the environmental temperature conditions is disclosed. The light is radiated on a sensor chip for a predetermined length of time and the amount of a substance contained in a specimen placed on a sensing thin film is measured by an optical signal obtained from the sensing chip, using an optical inspection apparatus comprising the sensor chip including a substrate 5, an optical waveguide layer 6 arranged on the substrate and the sensing thin film 7 attached on the surface of the optical waveguide layer, a light source 8 for radiating the light on the sensor chip and a photodetector 9 for receiving and converting the light output from the sensor chip into an electrical signal The light source is turned on and off a plurality of times for a predetermined length of time during which the inspection light is radiated. The amount of light with the light source on is measured by the photodetector thereby to determine the amount of the substance. In the process, the light amount with the light source off can also be measured so that the amount of the substance is determined from the difference between the light amount with the light source on and off.
    • 公开了一种使用便携式光学检查装置的检查方法,该便携式光学检查装置适于由电池驱动并且能够产生精确的感测结果而不受环境温度条件的不利影响。 将光照射在传感器芯片上预定的时间长度,并且通过使用包括传感器的光学检查装置的感测芯片获得的光学信号来测量放置在感测薄膜上的样本中所含有的物质的量 芯片,其包括基板5,布置在基板上的光波导层6和安装在光波导层的表面上的感测薄膜7,用于在传感器芯片上照射光的光源8和用于接收和 将来自传感器芯片的光输出转换为电信号。在其中辐射检查光的预定长度的时间内,光源被多次打开和关闭。 通过光电检测器测量光源的光量,从而确定物质的量。 在该过程中,也可以测量光源关闭的光量,使得物质的量由光源的光量的开启和关闭之间的差确定。