Method and apparatus for measuring natural retinal fluorescence

US 4,569,354 A
Filed: 03/22/1982
Issued: 02/11/1986
Est. Priority Date: 03/22/1982
Status: Expired due to Fees

First Claim

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1. Apparatus for determining the natural fluorescence of the retina of the eye comprising:

excitation means in an excitation optic path along an excitation optic axis for imaging and scanning a spot of light of an excitation frequency of about 450 nanometers across the retina; and

emission detection means comprising a photon counting photomultiplier tube in an emission optic path along an emission optic axis for detecting fluorescent light from the retina at two emission frequencies of about 520 nanometers, to the exclusion of light at the excitation frequency, and providing respective emission signals; and

electronic means responsive to the respective emission signals for generating an output emission signal as a function of the relative magnitudes of the respective emission signals.

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Abstract

Oxygenation of the retina is determined by measuring the fluorescence of flavoprotein in the retina. A spot of excitation light of a frequency of about 450 nanometers is scanned across the retina. Fluorescent light emitted from the retina at a frequency of about 520 nanometers is detected. The emission light may be detected at two frequencies of about 520 nm and 540 nm to allow for compensation for absorption and transmission variables in the eye. To compensate for fluoresence of the lens of the eye, the center of the pupil is imaged onto scanning mirrors so that the scanning beam of excitation light pivots at the center of the eye lens. Further, the center of the lens is imaged onto an optical stop in the emission optical path so that emitted light which passes back through the lens periphery, and not fluorescent light from the center of the lens, is detected. The emission light detector is a photon counting photomultiplier tube to permit safe limits on the intensity of the excitation light. Through computer controlled electronics, a fluorescent map can be stored in memory.

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16 Claims

1. Apparatus for determining the natural fluorescence of the retina of the eye comprising:
- excitation means in an excitation optic path along an excitation optic axis for imaging and scanning a spot of light of an excitation frequency of about 450 nanometers across the retina; and
  
  emission detection means comprising a photon counting photomultiplier tube in an emission optic path along an emission optic axis for detecting fluorescent light from the retina at two emission frequencies of about 520 nanometers, to the exclusion of light at the excitation frequency, and providing respective emission signals; and
  
  electronic means responsive to the respective emission signals for generating an output emission signal as a function of the relative magnitudes of the respective emission signals.

2. Apparatus for determining the fluorescence of the retina of an eye comprising:
- excitation means in an excitation optic path along an excitation optic axis for imaging and scanning a spot of light of an excitation frequency across a retina;
  
  emission detection means for independently detecting fluorescent light from the retina at at least two emission frequencies to the exclusion of light at the excitation frequency and providing respective emission signals, andelectronic means responsive to the respective emission signals for generating an output emission signal as a function of the relative magnitudes of the respective emission signals to provide an indication of the fluorescence of the retina.
- View Dependent Claims (3)
- - 3. Apparatus as claimed in claim 2 wherein the emission detection means detects light having emission frequencies of about 520 nanometers and 540 nanometers.

4. Apparatus for determining the fluorescence of the retina of the eye comprising:
- excitation means in an excitation optic path along an excitation optic axis for imaging and scanning a spot of light from a scanning beam of an excitation frequency across the retina, the excitation means including means for pivoting the beam of light about a point in the middle of the lens thickness such that the beam passes through substantially the same interior portion of the eye lens throughout scan of the retina;
  
  emission detection means in an emission optic path along an emission optic axis for detecting fluorescent light emitted from the retina at at least two emission frequencies, to the exclusion of light at the excitation frequency, the emission detection means comprising a photon counting photomultiplier and means for summing the photomultiplier output for each of the emission frequencies during successive units of time corresponding to successive small segments of spot scan and electronic means for generating an output emission signal as a function of the relative magnitudes of detected fluorescent light at the two frequencies; and
  
  means for coordinating the output emission signal with scanning movement of the spot of light to provide a fluorescent map of the retina comprising pixels corresponding to said small segments of spot scan.
- View Dependent Claims (5, 6, 7, 8, 9, 10, 11)
- - 5. Apparatus as claimed in claim 4 wherein the excitation means scans light having an excitation frequency of about 450 nanometers and the emission detection means detects light at emission frequencies of about 520 nanometers and 540 nanometers.
  - 6. Apparatus as claimed in claim 4 wherein the means for pivoting the beam of light comprises means for imaging the lens of the eye onto each of two scanning mirrors and the emission detection means comprises means for optically stopping reflected excitation light from the cornea and fluorescent light emitted by the lens in the emission optic path.
  - 7. Apparatus as claimed in claim 4 further comprising a central processor means for providing a line position indication to set the location of each line of the scan and wherein the excitation means comprises a fast scanning mirror and an orthogonally disposed slow scanning mirror and means for incrementing the slow scanning mirror in response to the fast scanning mirror and the line position indication.
  - 8. Apparatus as claimed in claim 7 further comprising a central processor means for providing rate of scan, length of scan and position of scan indications and a scan control circuit for causing the fast scanning mirror to scan continuously between increments of the slow scanning mirror based on the rate of scan, length of scan and position of scan indications received by the scan control circuit from the central processor.
  - 9. Apparatus as claimed in claim 8 comprising a central processor means for providing rate of scan, length of scan and position of scan indications and a scan control circuit for causing the fast scanning mirror to scan based on the rate of scan, length of scan and position of scan indications received by the scan control circuit from the central processor.
  - 10. Apparatus as claimed in claim 4 wherein the excitation optic axis and emission optic axis intersect at a mirror which forms an optical stop in the emission optic axis, the optical stop being imaged onto a small optical stop in the emission optic path to minimize detection of light reflected by the first optical stop from the excitation optic path.
  - 11. Apparatus as claimed in claim 4 comprising an ophthalmoscope lens common to both the excitation optic path and the emission optic path and means for optically stopping excitation light reflected from said ophthalmoscope lens in the emission light path.

12. A method of measuring the oxygenation of the retina of an eye comprising:
- imaging and scanning a spot of light of an excitation frequency across the retina, the excitation frequency being such that it excites natural fluorescence of a material of the retina at in at least one emission frequency indicative of the oxygenation of the retina, the spot of light being scanned across the retina by directing a beam of light through the lens of the eye and pivoting the beam about a point in the middle of the lens thickness such that the beam passes through substantially the same interior portion of the eye lens throughout scan; and
  
  detecting the amplitude of fluorescent light of the at least one emission frequency emitted from the retina at to the exclusion of light at the excitation frequency and measuring the oxygenation of the retina as a function of the amplitude found in said step of detecting.
- View Dependent Claims (13, 14, 15, 16)
- - 13. A method as claimed in claim 12 comprising scanning a spot of light having an excitation frequency of about 450 nanometers and detecting emitted light having an emission frequency of about 520 nanometers.
  - 14. A method as claim:
    - ed in claim 12, wherein the step of detecting comprises detecting the amplitude of fluorescent light at two different emission frequencies, and the step of measuring comprises measuring the oxygenation of said retina as a function of the relative amplitudes found in said step of detecting.
  - 15. A method as claimed in claim 14 wherein the detected emission frequencies are about 520 nanometers and 540 nanometers.
  - 16. A method as claimed in claim 12 further comprising the step of generating a fluorescent map of pixels, each pixel being formed by summing the light detected during a segment of a spot scan.

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Current Assignee
Trustees of Boston University
Original Assignee
Boston University
Inventors
Teich, Jonathan M., Shapiro, Jerrold M.
Primary Examiner(s)
Howell, Kyle L.
Assistant Examiner(s)
Hanley, John C.

Application Number

US06/360,385
Time in Patent Office

1,422 Days
Field of Search

128/633, 128/745, 128/665, 351/206, 351/207, 351/221, 250/461 B, 313/532
US Class Current

600/476
CPC Class Codes

A61B 3/10 Objective types, i.e. instr...

A61B 3/1241 specially adapted for obser...

Method and apparatus for measuring natural retinal fluorescence

First Claim

2 Assignments

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Abstract

83 Citations

16 Claims

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Method and apparatus for measuring natural retinal fluorescence

First Claim

2 Assignments

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0 Petitions

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Abstract

83 Citations

16 Claims

Specification

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