High-speed fluorescence scanner

US 5,459,325 A
Filed: 07/19/1994
Issued: 10/17/1995
Est. Priority Date: 07/19/1994
Status: Expired due to Term

First Claim

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1. A high-speed optical scanner for directing a beam at equal angles at a plurality of locations on a sample in an image plane comprising,means for producing a collimated excitation beam of light having a first spectral characteristic,a scan head having(i) a reflector disposed to receive the excitation beam at a constant angle and to deflect the excitation beam, and(ii) a lens disposed to intercept the excitation beam deflected by the reflector and to focus the excitation beam to a location on the sample in the image plane to cause fluorescent emission having a second spectral characteristic from the sample, and to gather the fluorescent emission from the sample, the fluorescent emission being directed back to the reflector,actuator means for reciprocally moving the scan head in a linear direction, whereby the excitation beam impinges upon the sample within the image plane in a scan line,a spectral dispersion device for separating the spectral characteristics of fluorescent emission from the spectral characteristics of excitation.

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Abstract

A high-speed fluorescence scanner for scanning a sample at equal angles is disclosed. The scanner has most of its optical components, including a light beam source, a detector, and various filters, lenses, and reflectors, in a fixed position, removed from the scan head. The lightweight scan head contains a single reflector and lens combination which is reciprocated rapidly along one axis to lengthen and shorten a region of the path of a collimated excitation beam and to form a scan line on a sample. The fluorescence emission may be gathered by the lens of the scan head and directed back, generally along the optical path of the excitation beam, to a detector. Another embodiment of the scanner places the light source, in miniature form, directly on the scan head. The sample may be translated in an axis orthogonal to the scan line in order to stimulate fluorescent emission from a two-dimensional portion of the sample. The design of the optical assembly currently permits scan speeds of up to approximately 100 inches per second.

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31 Claims

1. A high-speed optical scanner for directing a beam at equal angles at a plurality of locations on a sample in an image plane comprising,means for producing a collimated excitation beam of light having a first spectral characteristic,a scan head having(i) a reflector disposed to receive the excitation beam at a constant angle and to deflect the excitation beam, and(ii) a lens disposed to intercept the excitation beam deflected by the reflector and to focus the excitation beam to a location on the sample in the image plane to cause fluorescent emission having a second spectral characteristic from the sample, and to gather the fluorescent emission from the sample, the fluorescent emission being directed back to the reflector,actuator means for reciprocally moving the scan head in a linear direction, whereby the excitation beam impinges upon the sample within the image plane in a scan line,a spectral dispersion device for separating the spectral characteristics of fluorescent emission from the spectral characteristics of excitation.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The scanner of claim 1 wherein the reflector receives the excitation beam from a direction parallel to the direction of motion of the means for reciprocally moving the scan head.
  - 3. The scanner of claim 2 whereinthe reflector is oriented at an approximately 45°
    - angle to the image plane, andthe lens is positioned with its axis orthogonal to the image plane,whereby the excitation beam impinges upon the sample within the image plane from an orthogonal direction at all points in the scan line.
  - 4. The scanner of claim 1 wherein the actuator means is characterized by a scan speed of up to approximately 100 inches per second.
  - 5. The scanner of claim 1 wherein the actuator means comprises a shaft mechanically coupled to the scan head, the shaft being driven axially by a motor.
  - 6. The scanner of claim 1 further comprisinga means for translating the sample in the image plane in a direction orthogonal to the direction of the scan line, so that successive scans of the excitation beam sequentially cover two dimensions in the image plane.
  - 7. The scanner of claim 1 further comprising an electrophoretic means for moving the sample in a direction orthogonal to the scan line.
  - 8. The scanner of claim 1 wherein the means for reciprocally moving the scan head comprises a linear actuator operating on an open loop mechanism.
  - 9. The scanner of claim 1 wherein the means for reciprocally moving the scan head comprises a linear actuator operating on a closed loop mechanism.
  - 10. The scanner of claim 1 wherein the means for producing a collimated excitation beam comprises,a laser emitting an excitation beam, anda collimating lens positioned in the path of the excitation beam.
  - 11. The scanner of claim 1 further comprising,a second lens positioned proximate to the spectral dispersion device, for focusing the fluorescent emission, which has been separated from the excitation beam by the spectral dispersion device, anda light detector responsive to fluorescent emission.
  - 12. The scanner of claim 11 further comprising,a spatial filter positioned between the second lens and the light detector and having a pinhole aperture, the pinhole aperture disposed to intercept the fluorescence emission and to admit a portion thereof.

13. A high-speed optical scanner for directing a beam at equal angles at a plurality of locations on a sample in an image plane comprising,a scan head having(i) means for producing an excitation beam of light having a first spectral characteristic,(ii) a lens disposed to intercept the excitation beam and to focus the excitation beam to a location on the sample in the image plane to cause fluorescent emission having a second spectral characteristic from the sample, and to gather the fluorescent emission from the sample,(iii) means for directing the fluorescent emission out of the scan head, and(iv) a spectral dispersion device for separating the spectral characteristics of fluorescent emission from the spectral characteristics of excitation, andactuator means for reciprocally moving the scan head in a linear direction, whereby the excitation beam impinges upon the sample within the image plane in a scan line.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
- - 14. The scanner of claim 13 wherein the means for directing the fluorescent emission out of the scan head and the spectral dispersion device are a single dichroic beam splitter, the dichroic beam splitter positioned between the lens and the means for producing an excitation beam.
  - 15. The scanner of claim 13 wherein the means for producing an excitation beam is a light source selected from the group consisting of a laser diode, an LED, a halogen lamp, and a xenon lamp.
  - 16. The scanner of claim 13 wherein the actuator means is characterized by a scan speed of up to approximately 100 inches per second.
  - 17. The scanner of claim 13 wherein the actuator means comprises a shaft mechanically coupled to the scan head, the shaft being driven axially by a motor.
  - 18. The scanner of claim 13 further comprisinga means for translating the sample in the image plane in a direction orthogonal to the direction of the scan line, so that successive scans of the excitation beam sequentially cover two dimensions in the image plane.
  - 19. The scanner of claim 13 further comprising an electrophoretic means for moving the sample in a direction orthogonal to the scan line.
  - 20. The scanner of claim 13 wherein the means for reciprocally moving the scan head comprises a linear actuator operating on an open loop mechanism.
  - 21. The scanner of claim 13 wherein the means for reciprocally moving the scan head comprises a linear actuator operating on a closed loop mechanism.
  - 22. The scanner of claim 13 further comprising,a light detector responsive to the fluorescent emission, the light detector being positioned in the path of the fluorescent emission away from the scan head, anda second lens positioned in the path of the fluorescent emission between the scan head and the light detector, for focusing the fluorescent emission toward the light detector.
  - 23. The scanner of claim 22 further comprising,a spatial filter positioned between the second lens and the light detector and having a pinhole aperture, the pinhole aperture disposed to intercept the fluorescence emission and to admit a portion thereof.

24. A high-speed optical scanner for directing a beam at equal angles at a plurality of locations over extended targets comprising,an elongated arm, supported in an X-line, supporting a movable member adapted to be driven,linear actuator means for driving the member,means for producing a collimated beam of light parallel to the arm,a stage supporting a target to be scanned, the target containing material which fluoresces in response to impingement by the beam,an optical assembly, having a light reflector and an objective lens, the optical assembly mounted to the movable member of the arm, the reflector disposed to intercept the beam and direct the beam into the objective lens, the objective lens having a clear aperture between one and twenty times greater than the beam diameter and a focal spot on the target whereby the diameter of the objective lens functions as a light collector for fluorescent light, directing the light in a retropath parallel to the beam,a dichroic optical element disposed in the beam path, separating collected fluorescent light from the beam.
- View Dependent Claims (25)
- - 25. The scanner of claim 24 further comprising means for translating the target in a Y-line.

26. An optical scanner for rapid stimulation and fluorescence detection of samples comprising,an optical assembly having(i) a light source emitting an excitation beam,(ii) a collimator positioned proximate to the light source,(iii) a first reflector positioned at an angle in the path of the excitation beam, whereby the excitation beam is received by the first reflector and deflected,(iv) a second reflector positioned at an angle in the path taken by the excitation beam after it has been deflected by the first reflector, whereby the excitation beam is received by the second reflector and deflected,(v) a first lens positioned proximate to the second reflector in the path taken by the excitation beam after it has been deflected by the second reflector, whereby the excitation beam is received by the first lens and focused onto a sample to stimulate fluorescence emission therefrom, and whereby the fluorescence emission is gathered by the first lens and directed generally along the path taken by the excitation beam,(vi) a spectral dispersion device positioned in the path of the excitation beam and the gathered fluorescence emission, whereby the fluorescence emission is separated from the excitation beam by spectral characteristics, and(vii) a detector responsive to fluorescence emission positioned in the path taken by the fluorescence emission after it has been deflected by the second reflector,a movable support carrying the second reflector and the first lens, andan actuator for reciprocating the movable support in a linear direction, whereby the path of the excitation beam between the first and second reflectors is lengthened and shortened and the excitation beam impinges upon the sample in a scan line.
- View Dependent Claims (27, 28)
- - 27. The optical scanner of claim 26 further comprisinga second lens positioned proximate to the spectral dispersion device in the path taken by the fluorescence emission after it has been separated by the spectral dispersion device, anda spatial filter having a pinhole aperture, the spatial filter positioned between the second lens and the detector, the pinhole aperture disposed to intercept and admit only a portion of the fluorescence emission.
  - 28. The optical scanner of claim 26 further comprising a fixed guide attached to the movable support, the movable support reciprocating along the fixed guide.

29. An optical scanner for rapid stimulation and fluorescence detection of samples comprising,an optical assembly having(i) a light source emitting an excitation beam,(ii) a first lens positioned proximate to the light source whereby the excitation beam is received by the first lens and focused onto a sample to stimulate fluorescence emission therefrom, and whereby the fluorescence emission is gathered by the first lens,(iii) a spectral dispersion device positioned in the path of the excitation beam and the gathered fluorescence emission, whereby the fluorescence emission is separated from the excitation beam by spectral characteristics,(iv) a reflector positioned to receive the fluorescence emission after it has been separated by the spectral dispersion device and to deflect the fluorescence emission, and(v) a detector responsive to fluorescence emission positioned in the path taken by the fluorescence emission after it has been deflected by the reflector,a movable support carrying the light source, the spectral dispersion device, and the first lens, andan actuator for reciprocating the movable support in a linear direction, whereby the excitation beam impinges upon the sample in a scan line.
- View Dependent Claims (30, 31)
- - 30. The optical scanner of claim 29 further comprising,a second lens positioned to receive and to focus the fluorescence emission after it has been deflected by the reflector, anda spatial filter having a pinhole aperture, the spatial filter positioned between the second lens and the detector, the pinhole aperture disposed to intercept and admit only a portion of the fluorescence emission.
  - 31. The optical scanner of claim 29 further comprising a fixed guide attached to the movable support, the movable support reciprocating along the fixed guide.

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Current Assignee
GE Healthcare Bio-Sciences Corporation (General Electric Company)
Original Assignee
Molecular Dynamics Inc. (General Electric Company)
Inventors
Hueton, Iain, Van Gelder, Ezra
Primary Examiner(s)
FIELDS, CAROLYN

Application Number

US08/277,900
Time in Patent Office

455 Days
Field of Search

250/458.1, 250/461.1, 250/461.2, 356/317, 356/318, 356/417
US Class Current

250/458.1
CPC Class Codes

G01N 2021/6417   Spectrofluorimetric devices

G01N 21/6452   Individual samples arranged...

G01N 2201/101   Scanning measuring head

G01N 27/44721   by optical means

High-speed fluorescence scanner

First Claim

4 Assignments

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Abstract

462 Citations

31 Claims

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High-speed fluorescence scanner

First Claim

4 Assignments

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Accused Products

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Abstract

462 Citations

31 Claims

Specification

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Solutions

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