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Flow cell modules and liquid sample analyzers and methods including same

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G01N-021/05
  • G01N-021/59
  • G01N-021/00
  • G01N-021/64
  • G01J-003/44
  • G01J-003/10
  • G01N-021/03
  • G01J-003/02
출원번호 US-0501495 (2014-09-30)
등록번호 US-9500588 (2016-11-22)
발명자 / 주소
  • DiCesare, Joseph L.
  • Jin, Feng
  • Neal, Timothy P.
  • Aikens, David
출원인 / 주소
  • PerkinElmer Health Sciences, Inc.
대리인 / 주소
    Myers Bigel, P.A.
인용정보 피인용 횟수 : 0  인용 특허 : 44

초록

A liquid sample analyzer includes a liquid sample source, a flow cell, an optical device and a plurality of optical fibers. The flow cell is configured to receive a flow of a liquid sample from the liquid sample source. The plurality of optical fibers optically connect the flow cell to the optical d

대표청구항

1. A liquid sample analyzer comprising: a liquid sample source;a flow cell configured to receive a flow of a liquid sample from the liquid sample source;an optical device; anda plurality of optical fibers optically connecting the flow cell to the optical device to transmit light between the flow cel

이 특허에 인용된 특허 (44)

  1. Ogino Shinichi (Nishiku JPX) Kosaka Tokihiro (Kakogawashi JPX), Apparatus for analyzing particle images.
  2. Kosaka Tokihiro (Kakogawashi JPX) Ogino Shinichi (Nishiku JPX) Maekawa Yasunori (Mikishi JPX), Apparatus for detecting fluorescence of particles in a fluid and analyzing the particles.
  3. Ueno, Kunio; Hamada, Yuichi, Blood analyzer and blood analyzing method for classifying white blood cells.
  4. Horiuchi Hideyuki (Abiko JPX) Sakuraba Shinichi (Katsuta JPX) Kaneko Toshio (Katsuta JPX) Tatara Nobuyuki (Katsuta JPX) Yabe Ryohei (Katsuta JPX) Ohki Hiroshi (Tsuchiura JPX) Yamazaki Isao (Ibaraki J, Cell analysis apparatus.
  5. Yamamoto Koji (Kyoto JPX) Hanafusa Masahiro (Kyoto JPX) Nishimura Michio (Osaka JPX) Nakatsuji Yoshihiro (Kyoto JPX) Onuma Fumio (Kyoto JPX) Hirako Shinichi (Kyoto JPX) Kaede Kunio (Shiga JPX), Cell analyzer.
  6. Chen Duan-Jun, Fiber optic direct-sensing bioprobe using a phase-tracking approach.
  7. Garrett, Mark H., Fiber-coupled liquid sample analyzer with liquid flow cell.
  8. Nagai,Yutaka, Flow cytometer.
  9. Casstevens, Martin K.; Burzynski, Ryszard; Weibel, John; Kachynski, Alexander, Flow cytometer acquisition and detection system.
  10. Takeda, Kazuo, Flow cytometer and flow cell for the same.
  11. Ogino Shinichi (Hyogo JPX), Flow imaging cytometer.
  12. Hayashi, Hironori, Fluorescence detection device and fluorescence detection method.
  13. Hosoi Shigeru (Hamamatsu JPX) Hayakawa Tsuyoshi (Hamamatsu JPX), Fluorescence detection of DNA bases.
  14. Kitaoka, Mitsuo; Oda, Ryutaro; Gunji, Masahide, Fluorescence detector and liquid chromatograph having the fluorescence detector.
  15. Gilby,Anthony C., Fluorescence detector geometry.
  16. Sapp Edwin (Hillsdale NJ) Weinberger Robert (Chappaqua NY), High efficiency fluorescence flow cell for capillary liquid chromatography or capillary electrophoresis.
  17. Johnson,Paul E., High resolution imaging fountain flow cytometry.
  18. Maekawa Yasunori (Miki JPX) Kosaka Tokihiro (Kakogawa JPX), Imaging flow cytometer nearly simultaneously capturing a plurality of images.
  19. Hanlon, Gregory; Neal, Timothy, Lamp temperature management systems and methods for liquid chromatography analyzers.
  20. Yamazaki Tatsuya (Zushi JPX), Measuring apparatus with optically conjugate radiation fulcrum and irradiated area.
  21. Rodriguez Carlos M. ; Cano Jose M. ; Carrillo Barbara ; Gordon Kristie M. ; Horton Allan F. ; Paul Ronald D. ; Wells Mark A. ; Wyatt James L., Method and apparatus for analyzing cells in a whole blood sample.
  22. Gustafson, Richard; Callis, James B.; Mathews, Jeffrey D.; Robinson, John; Bruckner, Carsten A.; Suvamakich, Kuntinee, Method and apparatus for assaying wood pulp fibers.
  23. Sweedler Jonathan V. (Redwood City CA) Shear Jason B. (Menlo Park CA) Zare Richard N. (Stanford CA), Method and device employing time-delayed integration for detecting sample components after separation.
  24. Kenny Jonathan E. (Lexington MA) Taylor Todd A. (Chittenden VT), Method and system for examining the composition of a fluid or solid sample using fluorescence and/or absorption spectros.
  25. Li Yi ; Li Jing ; Young Carole, Method for differentiation of nucleated red blood cells.
  26. Li Yi ; Li Jing ; Young Carole, Method for differentiation of nucleated red blood cells.
  27. Peter Eriksson SE; Owe Orwar SE; Daniel T. Chiu, Method, apparatus and flow cell for high-sensitivity detection of fluorescent molecules.
  28. Lievan Bonnie A., Microchip optical transport technology for use in a personal flow cytometer.
  29. Amirkhanian Varouj ; Deliwala Sunil S. ; Franck Ronald W. ; Wanders Bart J. ; Tepermeister Gary, Miniature multiple wavelength excitation and emission optical system and method for laser-induced fluorescence detectors in capillary electrophoresis.
  30. Hull,Matthew S; Averett,Joshua P; Jones,Mark E; Klemer,Daniel R, Optical device for measuring optical properties of a sample and method relating thereto.
  31. Berard Joseph R. (Cranston RI) Burger Robert J. (Newton Centre MA) Melling Peter J. (Sturbridge MA) Moser William R. (Hopkington MA), Optical fiber coupled devices for remote spectroscopy in the infrared.
  32. Tsukii, Ken; Kimura, Kenichi; Takahashi, Toru; Xu, Jie, Optical information analyzing device and optical information analyzing method.
  33. Kosaka Tokihiro (Kakogawa JPX), Particle analyzer.
  34. Kusuzawa Hideo (Kobe JPX), Particle analyzing apparatus using a coherence lowering device.
  35. Miyake Ryo (Ibaraki JPX) Ohki Hiroshi (Tsuchiura JPX) Yamazaki Isao (Ibaraki JPX), Photoanalysis apparatus with means for correcting flow rate of fluid carrying particles and/or position of applied light.
  36. Gilby Anthony C. (Foxborough MA), Photometric apparatus and process.
  37. Belz, Mathias; Liu, Su Yi; Miller, Richard L., Photometric detection system having multiple path length flow cell.
  38. Yabusaki, Katsumi, Pollen grain-counting method and pollen grain counter.
  39. Prabhakar, Amit; Mukherji, Soumyo, Polymer analysis chip.
  40. Fernando, C. J. Anthony; Swon, James E., Sample analysis system with fiber optics and related method.
  41. Fry, Robert C.; Dyas, Michael R., Single source, single detector chip, multiple-longitudinal channel electromagnetic radiation absorbance and fluorescence monitoring system.
  42. Nogami Taro (Katsuta JPX) Matsuura Shunichi (Ibaraki JPX) Kuroda Akira (Mito JPX), Spectrofluorometer.
  43. Elkind Jerome L. ; Carr Richard A. ; Melendez Jose L., System and method for optical sensing utilizing a portable, detachable sensor cartridge.
  44. Miller Robert J. (Burlingame CA) Ingle James D. (Corvallis OR), Windowless flow cell and mixing chamber.
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