公开(公告)号：US09274107B2

公开(公告)日：2016-03-01

申请号：US13474863

申请日：2012-05-18

Applicant: Shun Momose

Inventor： Shun Momose

IPC: G01N33/543 ,  G01N21/03 ,  G01N21/07

CPC classification number: G01N33/54386 ,  G01N21/03 ,  G01N21/07 ,  G01N2021/0325 ,  G01N2021/0346 ,  G01N2333/11

Abstract: A microchip to be used for measuring a plurality of types of objects to be measured. The microchip includes at least a reagent retaining portion and a detecting portion. The test reagent retaining portion includes a plurality of types of test reagents corresponding respectively to the plurality of types of objects to be measured. A plurality of time courses for a change in detected value at the detecting portion caused by a reaction between the test reagents and the objects to be measured corresponding respectively thereto are all different from each other.

Abstract translation: 一种微芯片，用于测量待测量的多种类型的物体。 微芯片至少包括试剂保持部和检测部。 测试试剂保持部分包括分别对应于待测量的多种类型的物体的多种试验试剂。 由测试试剂和与其分别对应的测量对象之间的反应引起的检测部分处的检测值的变化的多个时间过程彼此不同。

公开(公告)号：US20130266483A1

公开(公告)日：2013-10-10

申请号：US13993172

申请日：2011-12-13

Applicant: Shun Momose ,  Hiroki Takeuchi

Inventor： Shun Momose ,  Hiroki Takeuchi

IPC: G01N21/01

CPC classification number: G01N21/01 ,  B01L3/502753 ,  B01L2200/0605 ,  B01L2200/0621 ,  B01L2300/0816 ,  B01L2400/0409 ,  B01L2400/0457 ,  G01N33/487 ,  G01N2035/00158

Abstract: A microchip including a fluid circuit therein and a specimen inlet for introducing a specimen containing a first component and a second component different in specific gravity from each other into the fluid circuit is provided, in which the fluid circuit includes a specimen measurement unit connected to the specimen inlet and having a prescribed volume for measuring the specimen introduced through the specimen inlet and a separation unit which is a site connected to the specimen measurement unit and having a capacity capable of storing the total amount of the measured specimen, for storing the total amount of the measured specimen and separating the first component and the second component in the stored specimen from each other.

Abstract translation: 提供一种其中包括流体回路的微芯片和用于将含有彼此不同比例的第一组分和第二组分的样本引入流体回路的样本入口，其中流体回路包括与样品测量单元连接的样品测量单元 试样入口并具有用于测量通过试样入口引入的试样的规定体积，以及分离单元，该分离单元是与试样测量单元连接并具有能够存储测量样本总量的位置的存储总量 并将储存的样品中的第一组分和第二组分彼此分离。

公开(公告)号：US08377389B2

公开(公告)日：2013-02-19

申请号：US11748140

申请日：2007-05-14

Applicant: Shun Momose

Inventor： Shun Momose

IPC: B01L3/00 ,  G01N21/00

CPC classification number: B81C3/001 ,  B01L3/5027 ,  B29C65/14 ,  B29C65/1406 ,  B29C65/1435 ,  B29C65/149 ,  B29C65/1493 ,  B29C65/1496 ,  B29C65/1616 ,  B29C65/1635 ,  B29C65/1654 ,  B29C65/169 ,  B29C65/1693 ,  B29C65/1696 ,  B29C66/112 ,  B29C66/1122 ,  B29C66/114 ,  B29C66/5346 ,  B29C66/53461 ,  B29C66/71 ,  B29C66/73161 ,  B29C66/73341 ,  B29C66/73343 ,  B29C66/73365 ,  B29C66/73521 ,  B29C66/73921 ,  B29C66/836 ,  B29C2035/0827 ,  B29K2023/12 ,  B29K2025/00 ,  B29K2027/06 ,  B29K2033/12 ,  B29K2067/00 ,  B29K2069/00 ,  B29K2995/0027 ,  B29K2995/0072 ,  B29L2031/756 ,  B81B2201/058 ,  Y10T29/49826 ,  Y10T436/2575 ,  B29K2067/003 ,  B29K2025/06 ,  B29K2023/38

Abstract: A fabrication method of a microfluidic circuit is provided, dispensable of mask registration, absent of deviation in mask positioning, and inexpensive in fabrication cost. The fabrication method of a microfluidic circuit has a light transmissive substrate stacked on a light absorptive substrate, and the light transmissive substrate welded with the light absorptive substrate for bonding by directing light through the light transmissive substrate. The microfluidic circuit includes a microchannel at the bottom face of the light transmissive substrate and/or at the top face of the light absorptive substrate. The method includes the step of forming, at the light transmissive substrate, a light attenuation region attenuating transmittance of light towards the microchannel when light is directed through the light transmissive substrate.

Abstract translation: 提供了微流体电路的制造方法，不需要掩模配准，掩模定位中没有偏差，并且制造成本低廉。 微流体电路的制造方法具有层叠在光吸收性基板上的透光性基板，通过将光引导通过透光性基板而与被吸收光吸收基板焊接的透光性基板进行接合。 微流体电路包括在透光基底的底面和/或在光吸收基底的顶面处的微通道。 该方法包括在光透射基板处形成光衰减区域的步骤，当光被引导通过透光基板时，光衰减区域使光朝向微通道的透射率衰减。

公开(公告)号：US20120266985A1

公开(公告)日：2012-10-25

申请号：US13451722

申请日：2012-04-20

Applicant: Shun Momose ,  Hiroki Takeuchi

Inventor： Shun Momose ,  Hiroki Takeuchi

IPC: F16L3/01 ,  B29C65/00 ,  B32B37/16

CPC classification number: B29C66/112 ,  B01L3/502707 ,  B01L2200/0689 ,  B01L2300/0816 ,  B01L2300/0887 ,  B29C65/1435 ,  B29C65/1477 ,  B29C65/1493 ,  B29C65/1635 ,  B29C65/1677 ,  B29C65/1693 ,  B29C65/8253 ,  B29C66/1122 ,  B29C66/114 ,  B29C66/242 ,  B29C66/244 ,  B29C66/30221 ,  B29C66/30223 ,  B29C66/348 ,  B29C66/53461 ,  B29C66/71 ,  B29C66/73161 ,  B29C66/73343 ,  B29C66/73365 ,  B29C66/73921 ,  B29C66/81267 ,  B29C66/8322 ,  B29L2031/756 ,  B81B2201/0214 ,  B81C3/001 ,  B81C2201/019 ,  B81C2203/038 ,  Y10T137/8593 ,  B29K2025/06 ,  B29K2009/06 ,  B29K2023/06 ,  B29K2023/12 ,  B29K2023/38 ,  B29K2033/12 ,  B29K2055/02 ,  B29K2059/00 ,  B29K2067/00 ,  B29K2067/003 ,  B29K2067/006 ,  B29K2069/00 ,  B29K2077/00 ,  B29K2083/00

Abstract: Provided are a microchip including a fluid circuit consisting of a space formed therein, a light-absorbing first substrate and a light-transmitting second substrate bonded onto the first substrate, and a groove, having a V-shaped section, extending parallelly to the fluid circuit on a surface of the second substrate opposite to the first substrate on a position immediately above at least part of the fluid circuit and a method of manufacturing the same.

Abstract translation: 提供了一种微芯片，其包括由其中形成的空间组成的流体回路，光吸收第一基板和接合到第一基板上的透光第二基板，以及具有平行于流体的V形截面的凹槽 在第二基板的与第一基板相对的表面上的电路在紧接在流体回路的至少一部分上方的位置及其制造方法。

公开(公告)号：US20090142232A1

公开(公告)日：2009-06-04

申请号：US12270942

申请日：2008-11-14

Applicant: Hidetaka Okada ,  Yasuhisa Kageyama ,  Shun Momose ,  Youichi Aoki

Inventor： Hidetaka Okada ,  Yasuhisa Kageyama ,  Shun Momose ,  Youichi Aoki

IPC: B01J19/00

CPC classification number: G01N21/07 ,  B01L3/502753 ,  B01L2200/0605 ,  B01L2200/0621 ,  B01L2300/0816 ,  B01L2300/0867 ,  B01L2400/0409 ,  B01L2400/0622 ,  B01L2400/086 ,  Y10T436/2575

Abstract: The present invention provides a microchip which is made by bonding a first substrate having a groove provided at the substrate surface and a second substrate together, and has a fluid circuit therein, the fluid circuit having a separation portion for separating a first component, and a groove which constitutes the separation portion including an approximately V-shaped region surrounded by prescribed flow channel walls. At a top of the separation portion, a flow rate limiting portion limiting a flow rate of a fluid is preferably provided.

Abstract translation: 本发明提供一种微芯片，其通过将具有设置在基板表面上的凹槽的第一基板和第二基板结合在一起而形成，其中具有流体回路，该流体回路具有用于分离第一部件的分离部分， 构成分离部的槽包括由规定的流路壁包围的大致V字形的区域。 在分离部分的顶部，优选提供限制流体流速的流量限制部分。

公开(公告)号：US20090105614A1

公开(公告)日：2009-04-23

申请号：US12063561

申请日：2006-08-15

Applicant: Shun Momose ,  Takaaki Shimasaki

Inventor： Shun Momose ,  Takaaki Shimasaki

IPC: A61B5/15 ,  A61M37/00 ,  A61M5/42

CPC classification number: A61B5/15142 ,  A61B5/150022 ,  A61B5/150358 ,  A61B5/150412 ,  A61B5/150503 ,  A61B5/150969 ,  A61B5/15105 ,  A61B5/15107 ,  A61B5/15117 ,  A61B10/0045 ,  A61B17/205 ,  A61B2010/0006 ,  A61B2010/0009 ,  G01N33/491 ,  G01N2035/00158

Abstract: To provide a chip for collecting analyte from a living body. Specifically, the chip includes a thin plate-shaped main body, an analyte inlet portion, and a thin portion. Analyte is introduced into the analyte inlet portion, which is formed within the main body. The thin portion partitions the space forming the analyte inlet portion from the external space. According to the chip of the present invention, it is possible to eliminate the time for collecting analyte from a living body using a hypodermic syringe or the like, and placing the collected analyte into the chip. Also, the chip according to the present invention does not leave analyte remaining at the position from which the analyte was extracted, so after the test the position where the analyte was extracted from the living body is clean.

Abstract translation: 提供用于从活体收集分析物的芯片。 具体地，芯片包括薄板状主体，​​分析物入口部分和薄部分。 将分析物引入到在主体内形成的分析物入口部分。 薄部分从外部空间分隔形成分析物入口部分的空间。 根据本发明的芯片，可以消除使用皮下注射器等从活体收集分析物的时间，并将收集的分析物放入芯片中。 此外，根据本发明的芯片不会将分析物残留在分析物被提取的位置，因此在测试之后，从生物体中提取分析物的位置是干净的。

公开(公告)号：US20070277927A1

公开(公告)日：2007-12-06

申请号：US11748140

申请日：2007-05-14

Applicant: Shun Momose

Inventor： Shun Momose

IPC: B32B37/00

CPC classification number: B81C3/001 ,  B01L3/5027 ,  B29C65/14 ,  B29C65/1406 ,  B29C65/1435 ,  B29C65/149 ,  B29C65/1493 ,  B29C65/1496 ,  B29C65/1616 ,  B29C65/1635 ,  B29C65/1654 ,  B29C65/169 ,  B29C65/1693 ,  B29C65/1696 ,  B29C66/112 ,  B29C66/1122 ,  B29C66/114 ,  B29C66/5346 ,  B29C66/53461 ,  B29C66/71 ,  B29C66/73161 ,  B29C66/73341 ,  B29C66/73343 ,  B29C66/73365 ,  B29C66/73521 ,  B29C66/73921 ,  B29C66/836 ,  B29C2035/0827 ,  B29K2023/12 ,  B29K2025/00 ,  B29K2027/06 ,  B29K2033/12 ,  B29K2067/00 ,  B29K2069/00 ,  B29K2995/0027 ,  B29K2995/0072 ,  B29L2031/756 ,  B81B2201/058 ,  Y10T29/49826 ,  Y10T436/2575 ,  B29K2067/003 ,  B29K2025/06 ,  B29K2023/38

Abstract: A fabrication method of a microfluidic circuit is provided, dispensable of mask registration, absent of deviation in mask positioning, and inexpensive in fabrication cost. The fabrication method of a microfluidic circuit has a light transmissive substrate stacked on a light absorptive substrate, and the light transmissive substrate welded with the light absorptive substrate for bonding by directing light through the light transmissive substrate. The microfluidic circuit includes a microchannel at the bottom face of the light transmissive substrate and/or at the top face of the light absorptive substrate. The method includes the step of forming, at the light transmissive substrate, a light attenuation region attenuating transmittance of light towards the microchannel when light is directed through the light transmissive substrate.

Abstract translation: 提供了微流体电路的制造方法，不需要掩模配准，掩模定位中没有偏差，并且制造成本低廉。 微流体电路的制造方法具有层叠在光吸收性基板上的透光性基板，通过将光引导通过透光性基板而与被吸收光吸收基板焊接的透光性基板进行接合。 微流体电路包括在透光基底的底面和/或在光吸收基底的顶面处的微通道。 该方法包括在光透射基板处形成光衰减区域的步骤，当光被引导通过透光基板时，光衰减区域使光朝向微通道的透射率衰减。

公开(公告)号：US08377391B2

公开(公告)日：2013-02-19

申请号：US13158957

申请日：2011-06-13

Applicant: Shun Momose

Inventor： Shun Momose

IPC: B01L3/00 ,  G01N21/00

CPC classification number: B81C3/001 ,  B01L3/5027 ,  B29C65/14 ,  B29C65/1406 ,  B29C65/1435 ,  B29C65/149 ,  B29C65/1493 ,  B29C65/1496 ,  B29C65/1616 ,  B29C65/1635 ,  B29C65/1654 ,  B29C65/169 ,  B29C65/1693 ,  B29C65/1696 ,  B29C66/112 ,  B29C66/1122 ,  B29C66/114 ,  B29C66/5346 ,  B29C66/53461 ,  B29C66/71 ,  B29C66/73161 ,  B29C66/73341 ,  B29C66/73343 ,  B29C66/73365 ,  B29C66/73521 ,  B29C66/73921 ,  B29C66/836 ,  B29C2035/0827 ,  B29K2023/12 ,  B29K2025/00 ,  B29K2027/06 ,  B29K2033/12 ,  B29K2067/00 ,  B29K2069/00 ,  B29K2995/0027 ,  B29K2995/0072 ,  B29L2031/756 ,  B81B2201/058 ,  Y10T29/49826 ,  Y10T436/2575 ,  B29K2067/003 ,  B29K2025/06 ,  B29K2023/38

Abstract: A fabrication method of a microfluidic circuit is provided, dispensable of mask registration, absent of deviation in mask positioning, and inexpensive in fabrication cost. The fabrication method of a microfluidic circuit has a light transmissive substrate stacked on a light absorptive substrate, and the light transmissive substrate welded with the light absorptive substrate for bonding by directing light through the light transmissive substrate. The microfluidic circuit includes a microchannel at the bottom face of the light transmissive substrate and/or at the top face of the light absorptive substrate. The method includes the step of forming, at the light transmissive substrate, a light attenuation region attenuating transmittance of light towards the microchannel when light is directed through the light transmissive substrate.

Abstract translation: 提供了微流体电路的制造方法，不需要掩模配准，掩模定位中没有偏差，并且制造成本低廉。 微流体电路的制造方法具有层叠在光吸收性基板上的透光性基板，通过将光引导通过透光性基板而与被吸收光吸收基板焊接的透光性基板进行接合。 微流体电路包括在透光基底的底面和/或在光吸收基底的顶面处的微通道。 该方法包括在光透射基板处形成光衰减区域的步骤，当光被引导通过透光基板时，光衰减区域使光朝向微通道的透射率衰减。

公开(公告)号：US08367424B2

公开(公告)日：2013-02-05

申请号：US12250592

申请日：2008-10-14

Applicant: Shun Momose ,  Akinori Yokogawa ,  Toshihiro Mori

Inventor： Shun Momose ,  Akinori Yokogawa ,  Toshihiro Mori

IPC: G01N21/41 ,  G01N21/01

CPC classification number: B01L3/50273 ,  B01L3/5025 ,  B01L3/5027 ,  B01L2200/12 ,  B01L2200/16 ,  B01L2300/0819 ,  B01L2300/0829 ,  B01L2300/0887 ,  B01L2300/168 ,  G01N21/07 ,  G01N33/5002 ,  G01N2021/0325

Abstract: A microchip includes fluid circuits therein, formed by uniting together at least a first substrate that is a transparent substrate and a second substrate having grooves provided at the substrate surface and/or through holes penetrating in a thickness direction. The fluid circuits include a liquid reagent receptacle unit to store a liquid reagent, a quantification unit to quantify the liquid reagent or specimen, and an overflow liquid storage unit connected to the quantification unit to store the liquid reagent or specimen overflowing from the quantification unit during quantification. There is also provided a method of using the microchip.

Abstract translation: 微芯片包括其中的流体回路，至少通过将至少第一基板作为透明基板和具有设置在基板表面处的凹槽和/或穿过厚度方向的通孔的第二基板结合在一起。 流体回路包括：液体试剂容纳单元，用于存储液体试剂;定量单元，用于量化液体试剂或试样;以及溢流液储存单元，连接到定量单元，以存储从定量单元溢出的液体试剂或试样 量化。 还提供了使用微芯片的方法。

公开(公告)号：US08143077B2

公开(公告)日：2012-03-27

申请号：US12129869

申请日：2008-05-30

Applicant: Shun Momose

Inventor： Shun Momose

IPC: H01L21/66

CPC classification number: B29C66/53461 ,  B01L3/502707 ,  B01L2300/161 ,  B01L2400/0409 ,  B29C65/00 ,  B29C65/02 ,  B29C65/48 ,  B29C66/02 ,  B29C66/02245 ,  B29C66/026 ,  B29C66/112 ,  B29C66/71 ,  B29C66/712 ,  B29C66/73161 ,  B29L2031/756 ,  B29K2023/12 ,  B29K2023/38 ,  B29K2025/06 ,  B29K2027/06 ,  B29K2033/12 ,  B29K2067/003 ,  B29K2069/00

Abstract: A microchip formed by joining a first substrate having at least one recess on its surface and a second substrate, wherein small projections of 0.5 to 30 μm in height are formed on at least a part of the surface having the recess of the first substrate, and a coating formed of a surface processing agent is provided on at least a part of the surface having the small projections formed thereon, as well as a method of manufacturing the microchip, are provided. A microchip allowing easy inspection of the state of application or state of adhesion of liquid material such as a surface processing agent, and allowing accurate optical measurement without causing disturbance such as fluorescence, can be provided.

Abstract translation: 通过将其表面上具有至少一个凹部的第一基板与第二基板接合而形成的微芯片，其中，在具有第一基板的凹部的表面的至少一部分上形成有高度为0.5〜30μm的小突起， 在其上形成有小突起的表面的至少一部分上提供由表面处理剂形成的涂层以及制造微芯片的方法。 可以提供容易检查诸如表面处理剂的液体材料的施用状态或粘附状态的微芯片，并且可以提供精确的光学测量而不引起诸如荧光的干扰。