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公开(公告)号:US09462969B2
公开(公告)日:2016-10-11
申请号:US13265290
申请日:2010-04-20
申请人: Feng Gao , Jyrki Kiihamäki , Ari Hokkanen , Päivi Heimala
发明人: Feng Gao , Jyrki Kiihamäki , Ari Hokkanen , Päivi Heimala
CPC分类号: A61B5/1411 , A61B5/14514 , A61B5/150022 , A61B5/150282 , A61B5/150419 , A61B5/150435 , A61B5/150511 , A61B5/15142 , A61B2562/0295 , A61M37/0015 , A61M2037/003 , A61M2037/0053 , A61M2037/0061
摘要: The application relates to microfluidic needles and their manufacturing methods. The microfluidic needle comprises an interface portion containing at least one fluid communication channel, an elongated needle portion (40) projecting away from the interface portion (44), the needle portion having a tip and sidewalls connecting the tip to the interface portion, and at least two microfluidic channels (43 A-B) within the needle portion in fluidic connection with the at least one communication channel, the microfluidic channels being at least partly oriented parallel to the elongated needle portion. According to the application, the microfluidic channels exit the needle portion at the sidewalls of the needle portion. The needle may be fabricated by ALD-assisted silicon micromachining. The needle can be used for injection and/or sampling fluids to/from tissue or individual cells.
摘要翻译: 本申请涉及微流体针及其制造方法。 所述微流体针包括含有至少一个流体连通通道的界面部分,远离所述界面部分(44)突出的细长针部分(40),所述针部分具有将尖端连接到界面部分的尖端和侧壁, 在所述针部分内与所述至少一个连通通道流体连接的至少两个微流体通道(43AB),所述微流体通道至少部分地定向为平行于所述细长针部分。 根据应用,微流体通道在针部分的侧壁处离开针部分。 针可以通过ALD辅助硅微加工制造。 针可以用于向/从组织或单个细胞注射和/或取样流体。
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公开(公告)号:US20120058506A1
公开(公告)日:2012-03-08
申请号:US13265290
申请日:2010-04-20
申请人: Feng Gao , Jyrki Kiihamäki , Ari Hokkanen , Päivi Heimala
发明人: Feng Gao , Jyrki Kiihamäki , Ari Hokkanen , Päivi Heimala
CPC分类号: A61B5/1411 , A61B5/14514 , A61B5/150022 , A61B5/150282 , A61B5/150419 , A61B5/150435 , A61B5/150511 , A61B5/15142 , A61B2562/0295 , A61M37/0015 , A61M2037/003 , A61M2037/0053 , A61M2037/0061
摘要: The application relates to microfluidic needles and their manufacturing methods. The microfluidic needle comprises an interface portion containing at least one fluid communication channel, an elongated needle portion (40) projecting away from the interface portion (44), the needle portion having a tip and sidewalls connecting the tip to the interface portion, and at least two microfluidic channels (43 A-B) within the needle portion in fluidic connection with the at least one communication channel, the microfluidic channels being at least partly oriented parallel to the elongated needle portion. According to the application, the microfluidic channels exit the needle portion at the sidewalls of the needle portion. The needle may be fabricated by ALD-assisted silicon micromachining. The needle can be used for injection and/or sampling fluids to/from tissue or individual cells.
摘要翻译: 本申请涉及微流体针及其制造方法。 所述微流体针包括含有至少一个流体连通通道的界面部分,远离所述界面部分(44)突出的细长针部分(40),所述针部分具有将尖端连接到界面部分的尖端和侧壁, 在所述针部分内与所述至少一个连通通道流体连接的至少两个微流体通道(43AB),所述微流体通道至少部分地定向为平行于所述细长针部分。 根据应用,微流体通道在针部分的侧壁处离开针部分。 针可以通过ALD辅助硅微加工制造。 针可以用于向/从组织或单个细胞注射和/或取样流体。
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3.发明授权Sample port, multi-layer filter, sampling method, and use of a sample port in sampling 有权采样端口,多层滤波器,采样方法以及采样端口的采样公开(公告)号:US08329476B2
公开(公告)日:2012-12-11
申请号:US13321804
申请日:2010-05-21
申请人: Juha-Pekka Pitkänen , Ari Hokkanen , Päivi Heimala , Jari Kauhaniemi , Kai Kolari , Pekka Savolahti , Jaana Uusitalo
发明人: Juha-Pekka Pitkänen , Ari Hokkanen , Päivi Heimala , Jari Kauhaniemi , Kai Kolari , Pekka Savolahti , Jaana Uusitalo
CPC分类号: G01N1/2035 , C12M33/04 , C12M33/14 , Y10T436/25 , Y10T436/25375 , Y10T436/255 , Y10T436/2575
摘要: A sample port includes a body equipped with an internal cavity and two plungers arranged moveably in the internal cavity, whereby the plungers can be pressed against each other in the internal cavity, in order to compress a sample. At least one of the plungers can be moved into a reactor in order to collect a sample. The sample port also includes a sample chamber, which is formed by a space remaining between the internal cavity and the plungers. At least one sample-container connection is connected in connection with the internal cavity in order to collect the sample from sample chamber. In addition, the sample port has a filter which is provided to at least either plunger for separating a liquid component of the sample from a solid component and means for leading the liquid component of the sample out of the sample chamber.
摘要翻译: 样品端口包括具有内腔的主体和可移动地设置在内腔中的两个柱塞,由此柱塞可以在内腔中彼此压靠,以便压缩样品。 柱塞中的至少一个可以移动到反应器中以收集样品。 样品端口还包括样品室,其由保持在内腔和柱塞之间的空间形成。 至少一个样品容器连接件与内部空腔连接,以便从样品室收集样品。 此外,样品端口具有过滤器,该过滤器设置在至少一个柱塞上,用于将样品的液体组分与固体成分分离,以及将样品的液体组分引出样品室的装置。
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4.发明申请SAMPLE PORT, MULTI-LAYER FILTER, SAMPLING METHOD, AND USE OF A SAMPLE PORT IN SAMPLING 有权样品端口,多层过滤器,采样方法和样品端口采样中的使用公开(公告)号:US20120115243A1
公开(公告)日:2012-05-10
申请号:US13321804
申请日:2010-05-21
申请人: Juha-Pekka Pitkänen , Ari Hokkanen , Päivi Heimala , Jari Kauhaniemi , Kai Kolari , Pekka Savolahti , Jaana Uusitalo
发明人: Juha-Pekka Pitkänen , Ari Hokkanen , Päivi Heimala , Jari Kauhaniemi , Kai Kolari , Pekka Savolahti , Jaana Uusitalo
CPC分类号: G01N1/2035 , C12M33/04 , C12M33/14 , Y10T436/25 , Y10T436/25375 , Y10T436/255 , Y10T436/2575
摘要: The invention relates to a sample port, filter, and sampling method. The sample port according to the invention comprises a body equipped with an internal cavity and two plungers arranged moveably in this, which can be pressed against each other in the internal cavity, in order to compress a sample, and at least one of which plungers can be moved into a reactor, in order to collect a sample. The sample port also comprises a sample chamber, which is formed by the space remaining between the internal cavity and the plungers, and at least one sample-container connection connected in connection with the internal cavity, in order to collect the sample from sample chamber. In addition, the sample port has filter means adapted to at least either plunger for separating the liquid component of the sample from the solid component and means for leading the liquid component of the sample out of the sample chamber.
摘要翻译: 本发明涉及采样端口,滤波器和采样方法。 根据本发明的采样端口包括配备有内腔的主体和可移动地布置的两个柱塞,其可在内腔中彼此挤压,以便压缩样品,并且其中至少一个柱塞可以 移入反应器中,以收集样品。 样品端口还包括样品室,其由残留在内部空腔和柱塞之间的空间形成,以及至少一个样品容器连接件,其与内部空腔相连接,以便从样品室收集样品。 此外,样品端口具有适于至少一个柱塞的过滤装置,用于将样品的液体组分与固体组分分离,并将样品的液体组分引导出样品室。
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公开(公告)号:US20090269767A1
公开(公告)日:2009-10-29
申请号:US12421252
申请日:2009-04-09
申请人: Hans SODERLUND , Ari Hokkanen , Kari Kataja , Ingmar Stuns , Kai Kolari , Heli Siren , Stella Rovio , Reetta Satokari , Jari Rautio
发明人: Hans SODERLUND , Ari Hokkanen , Kari Kataja , Ingmar Stuns , Kai Kolari , Heli Siren , Stella Rovio , Reetta Satokari , Jari Rautio
CPC分类号: G01N33/54326 , B01L3/50273 , B01L3/502761 , B01L2200/027 , B01L2200/0652 , B01L2200/0668 , B01L2200/0684 , B01L2200/10 , B01L2300/0636 , B01L2300/0681 , B01L2300/087 , B01L2300/16 , B01L2400/086 , B01L2400/088 , G01N33/54366 , G01N35/0098
摘要: A microfluidic chip device (MCD) and its use for performing miniaturized assays on magnetic microbeads (MMs) are described. The MCD is particularly useful for carrying out miniaturized transcript analysis by aiding affinity capturing (TRAC) assays, including PCR. The MCD comprises at least one reaction chamber with sealable liquid connections and at least one fluidic pillar filter in each chamber. The fluidic pillar filter comprises rods with spacings allowing MMs to pass. The sealable liquid connections feed liquid to the reaction chamber, wherein air bubbles are removed. The liquid stream contacts the MMs, which are manipulated with a magnetic rod. The liquid connections enable trapping of the MMs behind the pillar filters or in the channel, while the liquid is changed.
摘要翻译: 描述了一种微流体芯片器件(MCD)及其在磁性微珠(MM)上进行微型化测定的用途。 MCD通过辅助亲和力捕获(TRAC)测定(包括PCR)来进行小型化的转录物分析特别有用。 MCD包括至少一个具有可密封液体连接的反应室和每个室中的至少一个流体柱过滤器。 流体柱过滤器包括具有允许MMs通过的间隔的杆。 可密封的液体连接件将液体供应到反应室,其中除去气泡。 液体流接触MM,它们用磁力棒操纵。 当液体改变时,液体连接可以将柱塞过滤器或通道中的MM捕获。
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公开(公告)号:US08895292B2
公开(公告)日:2014-11-25
申请号:US12421252
申请日:2009-04-09
申请人: Hans Söderlund , Ari Hokkanen , Kari Kataja , Ingmar Stuns , Kai Kolari , Heli Siren , Stella Rovio , Reetta Satokari , Jan Rautio
发明人: Hans Söderlund , Ari Hokkanen , Kari Kataja , Ingmar Stuns , Kai Kolari , Heli Siren , Stella Rovio , Reetta Satokari , Jan Rautio
CPC分类号: G01N33/54326 , B01L3/50273 , B01L3/502761 , B01L2200/027 , B01L2200/0652 , B01L2200/0668 , B01L2200/0684 , B01L2200/10 , B01L2300/0636 , B01L2300/0681 , B01L2300/087 , B01L2300/16 , B01L2400/086 , B01L2400/088 , G01N33/54366 , G01N35/0098
摘要: A microfluidic chip device (MCD) and its use for performing miniaturized assays on magnetic microbeads (MMs) are described. The MCD is particularly useful for carrying out miniaturized transcript analysis by aiding affinity capturing (TRAC) assays, including PCR. The MCD comprises at least one reaction chamber with sealable liquid connections and at least one fluidic pillar filter in each chamber. The fluidic pillar filter comprises rods with spacings allowing MMs to pass. The sealable liquid connections feed liquid to the reaction chamber, wherein air bubbles are removed. The liquid stream contacts the MMs, which are manipulated with a magnetic rod. The liquid connections enable trapping of the MMs behind the pillar filters or in the channel, while the liquid is changed.
摘要翻译: 描述了一种微流体芯片器件(MCD)及其在磁性微珠(MM)上进行微型化测定的用途。 MCD通过辅助亲和力捕获(TRAC)测定(包括PCR)来进行小型化的转录物分析特别有用。 MCD包括至少一个具有可密封液体连接的反应室和每个室中的至少一个流体柱过滤器。 流体柱过滤器包括具有允许MMs通过的间隔的杆。 可密封的液体连接件将液体供应到反应室,其中除去气泡。 液体流接触MM,它们用磁力棒操纵。 当液体改变时,液体连接可以将柱塞过滤器或通道中的MM捕获。
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