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Retaining microfluidic microcavity and other microfluidic structures

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • B01F-015/02
출원번호 US-0229676 (2002-08-28)
우선권정보 SE-0003522 (2001-10-21); SE-0004077 (2001-12-05); WO-SE00537 (2002-03-19); WO-SE00538 (2002-03-19); WO-SE00531 (2002-03-19); WO-SE00539 (2002-03-19); SE-0001310 (2002-04-30)
발명자 / 주소
  • Andersson, Per
  • Ekstrand, Gunnar
출원인 / 주소
  • Gyros AB
대리인 / 주소
    Fulbright &
인용정보 피인용 횟수 : 94  인용 특허 : 9

초록

A microfluidic device that comprises several microchannel structures in which there are an inlet port, an outlet port and there between a structural unit comprising a fluidic function. The structural unit can be selected amongst units enabling a) retaining of nl-aliquots comprising constituents whic

대표청구항

1. A microfluidic device comprising a microchannel structure in which there are one or more inlet ports, one or more outlet ports, and one or more structural units wherein said structural unit comprises:(a) a retaining microcavity which is located between one of said one or more inlet ports and one

이 특허에 인용된 특허 (9)

  1. Sheppard ; Jr. Norman F. ; Mian Alec ; Kellogg Gregory ; Kieffer-Higgins Stephen G. ; Carvalho Bruce L., Affinity binding-based system for detecting particulates in a fluid.
  2. Schembri Carol T. (San Mateo CA), Analytical rotor with dye mixing chamber.
  3. Kopf-Sill Anne R. (Portola Valley CA) Zuk Robert (Burlingame CA), Analyzer with improved rotor structure.
  4. Bretaudiere Jean-Pierre (1 Alden Pl. Schenectady NY 12308) Prunenec Paul (44 ; Rue des Ecoles Paris FRX 75005), Centrifugal photometric analyzer.
  5. Demers Robert Richard, Device for delivering defined volumes.
  6. Kellogg Gregory ; Kieffer-Higgins Stephen G. ; Carvalho Bruce L. ; Davis Gene A. ; Willis John P. ; Minior Ted ; Chapman Laura L. ; Kob Mikayla ; Oeltjen Sarah D. ; Ommert Shari ; Mian Alec, Devices and methods for using centripetal acceleration to drive fluid movement on a microfluidics system.
  7. Columbus Richard L. (Rochester NY), Liquid transport device and method.
  8. Wilding Peter (Paoli PA) Kricka Larry J. (Berwyn PA) Zemel Jay N. (Jenkintown PA), Methods and apparatus for the detection of an analyte utilizing mesoscale flow systems.
  9. Columbus Richard L. (Rochester NY), Structural configuration for transport of a liquid drop through an ingress aperture.

이 특허를 인용한 특허 (94)

  1. Müller, Martin; Johns, Charles W.; Eberhardt, Michael, Aliquotter system and workflow.
  2. Matsumoto, Daisuke, Analyzer.
  3. Wilson, Brian D.; Anderson, David L.; Davis, Matthew S.; Erickson, Matthew D.; Johnson, Alan N.; Maurer, Garrick A.; Rosen, Michael J.; Sauerburger, Mark F.; Schmidt, Daniel R.; Wiltsie, Joshua D., Assay cartridge with reaction well.
  4. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Automated analyzer for performing a nucleic acid-based assay.
  5. Ochranek, Brian L.; Arnquist, David C.; Oonuma, Takehiko; Tahara, Hirotoshi; Sato, Naoto; Smith, Bradley P., Automated diagnostic analyzers having rear accessible track systems and related methods.
  6. Ochranek, Brian L.; Arnquist, David C.; Oonuma, Takehiko; Tahara, Hirotoshi; Sato, Naoto, Automated diagnostic analyzers having vertically arranged carousels and related methods.
  7. Ochranek, Brian L.; Arnquist, David C.; Oonuma, Takehiko; Tahara, Hirotoshi; Sato, Naoto, Automated diagnostic analyzers having vertically arranged carousels and related methods.
  8. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Automated process for detecting the presence of a target nucleic acid in a sample.
  9. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Automated process for detecting the presence of a target nucleic acid in a sample.
  10. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Automated process for detecting the presence of a target nucleic acid in a sample.
  11. Ammann,Kelly G.; Burns,Ralph E.; Hansberry,Ernest V.; Horner,Glenn A.; Jakub,Cheryl A.; Kling,John E.; Nieglos,Donald J.; Schneider,Robert E.; Smith,Robert J., Automated process for detecting the presence of a target nucleic acid in a sample.
  12. Johns, Charles W.; Otts, Stephen, Centrifuge system and workflow.
  13. Lair, Gary D.; Nguyen, Thanh N.; Li, Haitao; Li, Florence; Knight, Byron J.; Heinz, Robert E.; Macioszek, Jerzy A.; Davis, Christopher B.; Scalese, Robert F., Continuous process for performing multiple nucleic acid amplification assays.
  14. Kylberg, Gunnar; Salven, Owe; Andersson, Per, Device and method for the controlled heating in micro channel systems.
  15. Ochranek, Brian L.; Arnquist, David C., Diagnostic analyzers with pretreatment carousels and related methods.
  16. Allbritton, Nancy; Wang, Yuli; Sims, Christopher, Dissolution guided wetting of structured surfaces.
  17. Auld, Jeffery R. X., Electromagnetic biosensor.
  18. Auld, Jeffrey R. X., Electromagnetic biosensor.
  19. Engström, Johan; Inganäs, Mats; Thorsén, Gunnar, Flow paths comprising one or two porous beds.
  20. Kido,Horacio; Norton,James R.; Coombs,James H., Fluidic circuits for sample preparation including bio-discs and methods relating thereto.
  21. Breidenthal, Scott S.; Fan, Sara H.; Lee, Richard S.; Nelson, Norman C.; Scott, Matthew J.; Taylor, Jason A., Gravity-assisted mixing methods.
  22. Breidenthal, Scott S.; Lee, Richard S.; Nelson, Norman C.; Scott, Matthew J.; Taylor, Jason A.; Fan, Sara H., Gravity-assisted mixing methods.
  23. Fielden, Matthew; Sennefors, Therese; Dérand, Helene, Hydrophilic/hydrophobic surfaces.
  24. Ammann,Kelly G.; Schneider,Robert E.; Smith,Robert J., Incubator for use in an automated diagnostic analyzer.
  25. Engstrom,Johan; Hellermark,Cecillia, Inner walls of microfluidic devices.
  26. Burns,Ralph E., Instrument for detecting light emitted by the contents of a reaction receptacle.
  27. Breidenthal, Scott S.; Fan, Sara H.; Lee, Richard S.; Nelson, Norman C.; Poirier, Michael S.; Scott, Matthew J.; Taylor, Jason A., Instruments and methods for exposing a receptacle to multiple thermal zones.
  28. Breidenthal, Scott S.; Fan, Sara H.; Lee, Richard S.; Nelson, Norman C.; Scott, Matthew J.; Taylor, Jason A., Instruments and methods for mixing the contents of a detection chamber.
  29. Breidenthal, Scott S.; Fan, Sara H.; Lee, Richard S.; Nelson, Norman C.; Scott, Matthew J.; Taylor, Jason A., Instruments and methods for mixing the contents of a detection chamber.
  30. Breidenthal, Scott S.; Fan, Sara H.; Lee, Richard S.; Nelson, Norman C.; Scott, Matthew J.; Taylor, Jason A., Instruments and methods for mixing the contents of a detection chamber.
  31. Fan, Sara H.; Lee, Richard S., Instruments for mixing the contents of a detection chamber.
  32. Johns, Charles W.; Rizzotte, Samuel H., Magnetic damping for specimen transport system.
  33. Pugia,Michael J.; Profitt,James A.; Blankenstein,Gert; Peters,Ralf Peter, Method and apparatus for splitting of specimens into multiple channels of a microfluidic device.
  34. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., Method for agitating the contents of a reaction receptacle within a temperature-controlled environment.
  35. Ammann, Kelly G.; Hansberry, Ernest V., Method for agitating the fluid contents of a container.
  36. Ammann, Kelly G.; Hansberry, Ernest V., Method for agitating the fluid contents of a container.
  37. Macioszek, Jerzy A.; Davis, Christopher B.; Lair, Gary D.; Nguyen, Thanh N.; Li, Haitao; Li, Florence F.; Knight, Byron J.; Scalese, Robert F.; Heinz, Robert E., Method for continuous mode processing of the contents of multiple reaction receptacles in a real-time amplification assay.
  38. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Method for detecting the presence of a nucleic acid in a sample.
  39. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Method for detecting the presence of a nucleic acid in a sample.
  40. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Method for detecting the presence of a nucleic acid in a sample.
  41. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Method for detecting the presence of a nucleic acid in a sample.
  42. Light, II, James P.; Carrick, James M., Method for determining the amount of an analyte in a sample.
  43. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., Method for incubating the contents of a receptacle.
  44. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., Method for introducing a fluid into a reaction receptacle contained within a temperature-controlled environment.
  45. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Method for performing an assay with a nucleic acid present in a specimen.
  46. Macioszek, Jerzy A.; Davis, Christopher B.; Lair, Gary D.; Nguyen, Thanh N.; Li, Haitao; Li, Florence F.; Knight, Byron J.; Scalese, Robert F.; Heinz, Robert E., Method for performing multi-formatted assays.
  47. Light, II, James P., Method for reducing the presence of amplification inhibitors in a reaction receptacle.
  48. Ammann, Kelly G.; Burns, Ralph E.; Hansberry, Ernest V.; Horner, Glenn A.; Jakub, Cheryl A.; Kling, John E.; Nieglos, Donald J.; Schneider, Robert E.; Smith, Robert J., Method for simultaneously performing multiple amplification reactions.
  49. Cho, Yoon-kyoung; Lee, Jeong-gun; Lee, Beom-seok; Park, Jong-myeon, Method of mixing at least two kinds of fluids in centrifugal micro-fluid treating substrate.
  50. Mae, Kazuhiro, Method of multiple reaction in microreactor, and microreactor.
  51. Knight, Byron J.; Opalsky, David; Schroeter, Brian, Method, system and apparatus for incorporating capacitive proximity sensing in an automated fluid transfer procedure.
  52. Breidenthal, Scott S.; Fan, Sara H.; Lee, Richard S.; Nelson, Norman C.; Scott, Matthew J.; Taylor, Jason A., Methods and instruments for processing a sample in a multi-chambered receptacle.
  53. Nelson, Norman C.; Roma, Gianluca, Methods for manipulating liquid substances in multi-chambered receptacles.
  54. Nelson, Norman C.; Roma, Gianluca, Methods for manipulating liquid substances in multi-chambered receptacles.
  55. Breidenthal, Scott S.; Fan, Sara H.; Lee, Richard S.; Nelson, Norman C.; Scott, Matthew J.; Taylor, Jason A., Methods of concentrating an analyte.
  56. Thomas, Nicholas; Andersson, Per, Microfabricated apparatus for cell based assays.
  57. Andersson, Per; Allmer, Klas; Larsson, Anders, Microfluidic device.
  58. Cox, David M.; Desmond, Sean M., Microfluidic device including displaceable material trap, and system.
  59. Boehm, Christoph; Wuerl, Susanne, Microfluidic element for analysis of a sample liquid.
  60. Augstein, Manfred; Boehm, Christoph; Wuerl, Susanne, Microfluidic test carrier for apportioning a liquid quantity into subquantities.
  61. Pugia,Michael J.; Schulman,Lloyd S.; Kuo,Hai Hang; Blankenstein,Gert, Mixing in microfluidic devices.
  62. Burns,Ralph E.; Hansberry,Ernest V., Multiple ring assembly for providing specimen to reaction receptacles within an automated analyzer.
  63. Wiltsie, Joshua D., Pipettor including compliant coupling.
  64. Derand,Helene; Andersson,Per; Larsson,Anders, Polymer valves.
  65. Inganas, Mats; Lindman, Susanna; Derand, Helene, Preloaded microfluidic devices.
  66. Wilson, Brian D.; Davis, Matthew S.; Erickson, Matthew D.; Johnson, Alan N.; Maurer, Garrick A.; Schmidt, Daniel R.; Wiltsie, Joshua D., Reaction vessel.
  67. Wilson, Brian D.; Johnson, Alan N.; Kraihanzel, Charles S.; Wiltsie, Joshua D., Reagent cartridge.
  68. Andersson,Per; Ekstrand,Gunnar, Retaining microfluidic microcavity and other microfluidic structures.
  69. Johns, Charles W.; Quint, Joseph F.; Chen, Chi S., Robotic arm.
  70. Müller, Martin; Weihs, Andreas; Gunzer, Gerhard; Eberhardt, Michael, Sample container cap with centrifugation status indicator device.
  71. Lair, Gary D.; Nguyen, Thanh N.; Li, Haitao; Li, Florence F.; Knight, Byron J.; Heinz, Robert E.; Macioszek, Jerzy A.; Davis, Christopher B.; Scalese, Robert F., Signal measuring system having a movable signal measuring device.
  72. Müller, Martin; Weihs, Andreas; Gunzer, Gerhard; Eberhardt, Michael, Specimen container detection.
  73. Wilson, Brian D.; Davis, Matthew S.; Johnson, Alan N.; Maurer, Garrick A., System and method for controlling thermal cycler modules.
  74. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., System and method for incubating the contents of a reaction receptacle.
  75. Johns, Charles W., System and method for processing samples.
  76. Gwynn, Robert B.; Wagner, Reed B., System and method including analytical units.
  77. Kraihanzel, Charles S., System and method including analytical units.
  78. Wilson, Brian D.; Anderson, David L.; Erickson, Matthew D.; Johnson, Alan N.; Rosen, Michael J.; Schmidt, Daniel R.; Wiltsie, Joshua D., System and method including analytical units.
  79. Wilson, Brian D.; Anderson, David L.; Davis, Matthew S.; Erickson, Matthew D.; Johnson, Alan N.; Maurer, Garrick A.; Rosen, Michael J.; Sauerburger, Mark F.; Schmidt, Daniel R.; Wiltsie, Joshua D., System and method including multiple processing lanes executing processing protocols.
  80. Wilson, Brian D.; Alaruri, Sami D.; Davis, Matthew S.; Erickson, Matthew D.; Johnson, Alan N.; Maurer, Garrick A.; Sauerburger, Mark F.; Schmidt, Daniel R.; Wiltsie, Joshua D.; Stachelek, Thomas M.; Yang, David L., System and method including thermal cycler modules.
  81. Ammann, Kelly G.; Hansberry, Ernest V., System for agitating the fluid contents of a container.
  82. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., System for incubating the contents of a reaction receptacle.
  83. Knight, Byron J.; Li, Haitao, System for performing multi-formatted assays.
  84. Lair, Gary D.; Nguyen, Thanh N.; Li, Haitao; Li, Florence F.; Knight, Byron J.; Heinz, Robert E.; Macioszek, Jerzy A.; Davis, Christopher B.; Scalese, Robert F., System for performing multi-formatted assays.
  85. Knight, Byron J., System for processing contents of a receptacle to detect an optical signal emitted by the contents.
  86. Hayes, Matthew J.; Knight, Byron J.; Li, Haitao; Scalese, Robert F., Systems and methods for detecting multiple optical signals.
  87. Hayes, Matthew J.; Knight, Byron J.; Li, Haitao; Scalese, Robert F., Systems and methods for detecting multiple optical signals.
  88. Heinz, Robert E.; Newell, Dennis; Opalsky, David; Rhubottom, Jason, Systems and methods for distinguishing optical signals of different modulation frequencies in an optical signal detector.
  89. Heinz, Robert E.; Newell, Dennis; Opalsky, David; Rhubottom, Jason, Systems and methods for distinguishing optical signals of different modulation frequencies in an optical signal detector.
  90. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., Temperature-controlled incubator having a receptacle mixing mechanism.
  91. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., Temperature-controlled incubator having an arcuate closure panel.
  92. Ammann, Kelly G.; Schneider, Robert E.; Smith, Robert J., Temperature-controlled incubator having rotatable door.
  93. Bedingham, William; Robole, Barry W.; Parthasarathy, Ranjani V.; Ericson, Katya, Variable valve apparatus and methods.
  94. Guan, Xiaosheng; Guo, Min; Zhou, Cheng; Hu, Yuming; Cheng, Jing, Wicking inhibitor for fluidic devices.
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