Fluorescent beads detecting method and fluorescent beads detecting apparatus

US 20050130325A1
Filed: 12/08/2004
Published: 06/16/2005
Est. Priority Date: 12/12/2003
Status: Abandoned Application

First Claim

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1. A fluorescence beads detecting method for radiating an excitation light to beads including on or in fluorescent substances arranged in a flow path to detect fluorescence emitted from the beads, wherein the excitation light radiated to the beads has a shape having different horizontal to vertical ratio, a longitudinal direction of the shape is directed in a direction perpendicular to a larger flow in a flow path as compared with a short direction, positions on the beads to which the excitation light radiates are relatively changed in sequence, the fluorescence generated through radiation of the excitation light is detected, being separated from the excitation light and a desired fluorescent signal is attained.

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Abstract

A method and a device for accurately detecting with fluorescence some arranged beads through utilization of fluorescent beads in a flow path because each diameter the beads is small in respect to an inner diameter of the flow path and the beads are not arranged in a linear manner. A fine elongated excitation light is radiated in a direction perpendicular to the flow path to the samples having a plurality of units with fluorescent members being applied to some relative large beads, this is relatively scanned in a direction toward the flow path so as to perform a well-separable and accurate detection of the beads without being influenced by the adjoining beads.

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12 Claims

1. A fluorescence beads detecting method for radiating an excitation light to beads including on or in fluorescent substances arranged in a flow path to detect fluorescence emitted from the beads, wherein the excitation light radiated to the beads has a shape having different horizontal to vertical ratio, a longitudinal direction of the shape is directed in a direction perpendicular to a larger flow in a flow path as compared with a short direction, positions on the beads to which the excitation light radiates are relatively changed in sequence, the fluorescence generated through radiation of the excitation light is detected, being separated from the excitation light and a desired fluorescent signal is attained.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The fluorescent beads detecting method according to claim 1, wherein a length of the excitation light in the long direction is smaller than a diameter of section perpendicular to a flow direction in the flow path and 0.3 times larger than the diameter of the bead.
  - 3. The fluorescent beads detecting method according to claim 1, wherein light reflected at the beads by either the excitation light or a position detecting beam keeping a certain positional relation with the excitation light is guided to a light position detector, a fluorescence detection timing is determined based on a position signal detected by the light position detector and the fluorescence is detected.
  - 4. The fluorescent beads detecting method according to claim 1, wherein when fluorescence generated through radiation of the excitation light is detected, being separated from the excitation light, at least one type of excitation light-fluorescence separating means is applied from among three units of a wavelength selection beam splitter, a spatial filter and an interference filter.
  - 5. The fluorescent beads detecting method according to claim 1, wherein either the excitation light or the position detecting beam causes light linearly polarized through application of a polarizer to either a light source of linear polarized light or a light source of non-polarized light to be incident to the light position detector by applying the polarized beam splitter and the wavelength plate in a state where the light reflected by the beads has a superior efficiency and has a less amount of noise light.
  - 6. The fluorescent beads detecting method according to claim 5, wherein the wavelength plate is a ¼
    - wavelength plate and is arranged between an optical system facing against the beads and the beads.
  - 7. The fluorescent beads detecting method according to claim 1, wherein there is provided a sample in which the fluorescent beads including the fluorescent substances on or in the beads, dummy beads not including any fluorescent substances on or in the beads and the fluorescent beads including different kinds of fluorescent substances are arranged in a certain order.

8. A fluorescent beads detecting apparatus for radiating an excitation light to beads including on or in the beads fluorescent substances arranged in a flow path and detecting the fluorescence emitted from the beads, comprising:
- an exciting light source;
  
  a beam forming optical system for forming light beams emitted from the light source in a shape having a different horizontal to vertical ratio on the fluorescent beads and with a long direction of the shape being directed toward a direction perpendicular to a large flow in the flow path as compared with that of the short direction;
  
  an excitation light-fluorescent branch means for separating the excitation light from the fluorescence;
  
  a wavelength selection beam splitter for either reflecting or passing light depending on a difference in wavelength between the excitation light and the fluorescence;
  
  a radiation optical system for radiating (excitation light) the excitation light passed through the beam splitter to the beads including at the surfaces or inner portions the fluorescent substance acting as detected item on or in the beads;
  
  a detecting optical system for detecting the fluorescence emitted from the fluorescent substance;
  
  a fluorescent detector for detecting fluorescence passed through the detecting optical system;
  
  a position detector to which an excitation light reflected from the beads or light emitted from the light source separately arranged from the excitation light is radiated so as to detect the light reflected from the beads and passed through the excitation light beam splitter;
  
  a fluorescent detector; and
  
  a control circuit for attaining information of the fluorescent beads based on information obtained from the position detector and the fluorescent detector.
- View Dependent Claims (9, 10, 11, 12)
- - 9. The fluorescent detecting apparatus according to claim 8, wherein the lighting optical system and the detecting optical system are a common objective lens.
  - 10. The fluorescent detecting apparatus according to claim 9, wherein the beam splitter is a polarized beam splitter, and a ¼
    - wavelength plate is installed between the objective lens and the beads.
  - 11. The fluorescent detecting apparatus according to claim 8, wherein at least one type of excitation light-fluorescent separating means of the excitation light-fluorescent separating means from among three units of the wavelength selection beam splitter, spatial filter and interference filter as the excitation light-fluorescent branch means.
  - 12. The fluorescent detecting apparatus according to claim 8, wherein there is provided a driving means for displacing a relative position between the fluorescent beads and the excitation light.

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Current Assignee
Hitachi Software Engineering Co., Ltd. (Hitachi, Ltd.)
Original Assignee
Hitachi Software Engineering Co., Ltd. (Hitachi, Ltd.)
Inventors
Oshida, Yoshitada, Kishida, Hiroshi

Application Number

US11/006,624
Publication Number

US 20050130325A1
Time in Patent Office

Days
Field of Search
US Class Current

436/528
CPC Class Codes

G01N 15/147   the analysis being performe...

G01N 21/6428   Measuring fluorescence of f...

G01N 21/645   Specially adapted construct...

Fluorescent beads detecting method and fluorescent beads detecting apparatus

First Claim

2 Assignments

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Abstract

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12 Claims

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Fluorescent beads detecting method and fluorescent beads detecting apparatus

First Claim

2 Assignments

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Abstract

Citations

12 Claims

Specification

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Solutions

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