Probe for localized tissue spectroscopy

US 6,564,088 B1
Filed: 01/22/2001
Issued: 05/13/2003
Est. Priority Date: 01/21/2000
Status: Expired due to Fees

First Claim

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1. A side-sensing fiber optic probe for interrogating tissue, comprising:

a probe body including a housing configured for holding fiber optics in a side-to-side arrangement, a first fiber optic enclosed within the housing for delivering light to a region of tissue, and a second fiber optic enclosed within the housing and held apart by a predetermined spacing from the first fiber optic for receiving light from the region of tissue, the predetermined spacing being based on Monte Carlo simulations to optimize a collected signal for a desired tissue sample, wherein the housing includes a tissue illumination window for exposing a portion of the first fiber optic, and a detection window for exposing a portion of the second fiber optic, the windows being positioned on a side of the housing so as to allow light to pass through the illumination window from the first fiber optic into the region of tissue and reflect back into the detection window to the second fiber optic when the probe is placed against the tissue.

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Abstract

An optical probe structure for illuminating and collecting returned light from a region of tissue. The optical probe is configured with illumination and collection windows to controllably collect light from the region of tissue in vivo. The probe is designed to have a defined spacing between the fiber or fibers connected to the light source, and the fiber or fibers connected to the optical detector, so that light reaching the detector has passed through a localized region of tissue of a small and well-defined size or dimension. The probe can assay or detect tissue cell distribution, a tissue constituent such as hydrogen ions (pH), lactate, or an endogenous tissue component such as hemoglobin, myoglobin, or lipids in plaque. Measurements may indicate conditions such as metabolic state, stress, shock or ischemia in different tissues.

300 Citations

24 Claims

1. A side-sensing fiber optic probe for interrogating tissue, comprising:
- a probe body including a housing configured for holding fiber optics in a side-to-side arrangement, a first fiber optic enclosed within the housing for delivering light to a region of tissue, and a second fiber optic enclosed within the housing and held apart by a predetermined spacing from the first fiber optic for receiving light from the region of tissue, the predetermined spacing being based on Monte Carlo simulations to optimize a collected signal for a desired tissue sample, wherein the housing includes a tissue illumination window for exposing a portion of the first fiber optic, and a detection window for exposing a portion of the second fiber optic, the windows being positioned on a side of the housing so as to allow light to pass through the illumination window from the first fiber optic into the region of tissue and reflect back into the detection window to the second fiber optic when the probe is placed against the tissue.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The fiber optic probe of claim 1, wherein the spacing is set to achieve a desired sensitivity to scattering and absorbance.
  - 3. The fiber optic probe of claim 1, wherein the fiber optics are held within grooves in the housing, and the housing contains different spaced grooves to allow selective placement of the first and second fiber optics at different separations to optimize a collected light signal for a given material or tissue.
  - 4. The fiber optic probe of claim 1, wherein the spacing is set within a probe volume corresponding to size of a tissue feature or region of interest.
  - 5. The fiber optic probe of claim 1, configured for penetration of tissue.
  - 6. The fiber optic probe of claim 1, wherein the spacing is set to probe a tissue volume under several cubic millimeters.
  - 7. The fiber optic probe of claim 6, wherein the spacing is set to probe a tissue volume under about one cubic millimeter.
  - 8. The fiber optic probe of claim 7, wherein the spacing is set to probe a tissue volume under about 0.25 cubic millimeters.
  - 9. The fiber optic probe of claim 6, wherein the probe is configured to spectrographically identify and/or measure concentration of one or more materials selected from among a dye, a treatment compound, and a tissue constituent.
  - 10. The fiber optic probe of claim 6, wherein the probe is configured to spectrographically image a region of tissue.
  - 11. The fiber optic probe of claim 1, wherein the windows are symmetrically positioned with respect to a longitudinal axis of the housing.
  - 12. The fiber optic probe of claim 1, configured for direct insertion into a blood vessel to interrogate an internal surface of the vessel wall.

13. A method of analyzing a target tissue by detection of a spectrographic signal of interest, such method comprising the steps of:
- placing a probe having a source and a detector in contact with the target tissue, wherein the probe includes a housing for holding apart the source and detector therein, the housing further including an illumination window for exposing a portion of the source and a detection window for exposing a portion of the detector, the windows being positioned on a side of the housing;
  
  setting a spacing between the source and detector for selectively interrogating a limited volume of the target tissue;
  
  illuminating the target tissue with light emitted from the source through the illumination window; and
  
  detecting light through the detection window with the detector, whereby the detected light provides information about the limited volume of target tissue, wherein the step of setting the spacing includes selecting the spacing based on a non-diffusion modeled interaction to probe a volume localized so as to preferentially detect the signal of interest.
- View Dependent Claims (14, 15, 16, 17)
- - 14. The method of claim 13, wherein the probe has plural sets of sources and detectors, each set being positioned to image one of multiple localized volumes in the target tissue for forming a spectrographic image.
  - 15. The method of claim 13, wherein the spectrographic image forms a map of concentration, state or tissue condition.
  - 16. The method of claim 13, wherein the source and detector comprise optical fibers.
  - 17. The method of claim 13, wherein the localized volume corresponds to absorbance depth of a target material.

18. A spectrographic probe for interrogating tissue to detect a signal of interest for spectrographic characterization, the probe comprising:
- a probe body including a housing configured for holding an illumination source and a light detector mounted therein, the housing further having an illumination window for exposing a portion of the illumination source and a detection window for exposing a portion of the detector, the windows being positioned on a side of the housing, the illumination source being positioned by the probe body for delivering light through the illumination window to a region of tissue, the detector being positioned by the probe body a predetermined spacing from the source for receiving light through the detection window from the region of tissue, wherein the predetermined spacing is a small spacing effective to limit light received by the detector to light from a tissue depth that preferentially contains the signal of interest, thereby enhancing accuracy of the spectrographic determination.
- View Dependent Claims (19, 20, 21, 22, 23, 24)
- - 19. The spectrographic probe of claim 18, wherein the predetermined spacing is set based on Monte Carlo modeling of tissue scattering and an absorbance.
  - 20. The spectrographic probe of claim 18, wherein the source and the detector are optical fibers.
  - 21. The spectrographic probe of claim 18, configured to penetrate tissue.
  - 22. The spectrographic probe of claim 18, configured to contact a tissue surface.
  - 23. The spectrographic probe of claim 22, configured to contact skin and illuminate a volume of target tissue lying below the skin.
  - 24. The spectrographic probe of claim 18, configured for direct insertion into a blood vessel to interrogate an internal surface of the vessel wall.

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Current Assignee
University Of Massachusetts
Original Assignee
University Of Massachusetts
Inventors
Khan, Tania, Soller, Babs R.
Primary Examiner(s)
Hirsch, Paul J.

Application Number

US09/766,990
Time in Patent Office

841 Days
Field of Search

600/478, 600/477
US Class Current

600/478
CPC Class Codes

A61B 2562/0242   for varying or adjusting th...

A61B 5/0075   by spectroscopy, i.e. measu...

A61B 5/0084   for introduction into the b...

A61B 5/0086   using infrared radiation

A61B 5/02007   Evaluating blood vessel con...

A61B 5/14539   for measuring pH

A61B 5/14546   for measuring analytes not ...

A61B 5/1459   invasive, e.g. introduced i...

A61B 5/6848   Needles

G01N 21/49   within a body or fluid

Y10S 977/869   Optical microscope

Probe for localized tissue spectroscopy

First Claim

2 Assignments

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Abstract

300 Citations

24 Claims

Specification

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Probe for localized tissue spectroscopy

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

300 Citations

24 Claims

Specification

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Solutions

Use Cases

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