Method and apparatus for improving image clarity and sensitivity in optical coherence tomography using dynamic feedback to control focal properties and coherence gating

US 9,897,538 B2
Filed: 04/30/2002
Issued: 02/20/2018
Est. Priority Date: 04/30/2001
Status: Active Grant

First Claim

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1. An apparatus for obtaining information associated with at least one structure, comprising:

at least one optical coupler first arrangement configured to receive at least one first optical radiation from the at least one structure and at least one second optical radiation from a reference; and

at least one computer second arrangement configured to determine the information regarding the at least one structure, wherein the at least one second arrangement is further configured to (i) determine a distance from at least one portion of the at least one structure to the at least one first arrangement based on the information, and (ii) track at least one peak of at least one signal of the information which includes image data regarding the at least one structure,wherein the at least one computer second arrangement is further configured to, as a function of the distance and the at least one peak, control an optical radiation path length of a third optical radiation which is at least one of;

i. at least one of transmitted to or received from the at least one structure, orii. at least one of transmitted to or received from the reference, andwherein the at least one computer second arrangement is further configured to determine the distance using at least one of a zero-th order procedure, a first derivative procedure, a second derivative procedure, a determination of a probability distribution function statistics or a fitting procedure as applied to the information which is based on the distance and the at least one peak.

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Abstract

Methods for optical imaging, particularly with optical coherence tomography, using a low coherence light beam reflected from a sample surface and compared to a reference light beam, wherein real time dynamic optical feedback is used to detect the surface position of a tissue sample with respect to a reference point and the necessary delay scan range. The delay is provided by a tilting/rotating mirror actuated by a voltage adjustable galvanometer. An imaging probe apparatus for implementing the method is provided. The probe initially scans along one line until it finds the tissue surface, identifiable as a sharp transition from no signal to a stronger signal. The next time the probe scans the next line it adjusts the waveform depending on the previous scan. An algorithm is disclosed for determining the optimal scan range.

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18 Claims

1. An apparatus for obtaining information associated with at least one structure, comprising:
- at least one optical coupler first arrangement configured to receive at least one first optical radiation from the at least one structure and at least one second optical radiation from a reference; and
  
  at least one computer second arrangement configured to determine the information regarding the at least one structure, wherein the at least one second arrangement is further configured to (i) determine a distance from at least one portion of the at least one structure to the at least one first arrangement based on the information, and (ii) track at least one peak of at least one signal of the information which includes image data regarding the at least one structure,wherein the at least one computer second arrangement is further configured to, as a function of the distance and the at least one peak, control an optical radiation path length of a third optical radiation which is at least one of;
  
  i. at least one of transmitted to or received from the at least one structure, orii. at least one of transmitted to or received from the reference, andwherein the at least one computer second arrangement is further configured to determine the distance using at least one of a zero-th order procedure, a first derivative procedure, a second derivative procedure, a determination of a probability distribution function statistics or a fitting procedure as applied to the information which is based on the distance and the at least one peak.
- View Dependent Claims (2, 3, 4, 5, 7)
- - 2. The apparatus according to claim 1, wherein the at least one portion is a surface of the at least one structure.
  - 3. The apparatus according to claim 1, wherein the at least one structure includes an anatomical structure.
  - 4. The apparatus according to claim 1, wherein the at least one second arrangement is further configured to (i) obtain information associated with the at least one structure associated the controlled optical radiation path length, and (ii) generate at least one image of the at least one portion as a function of the information.
  - 5. The apparatus according to claim 1, wherein the at least one second arrangement is further configured to control an optical radiation path length while an image of the at least one portion is generated.
  - 7. The apparatus according to claim 1, wherein the at least one second arrangement is further configured to determine an optical radiation penetration depth within the at least one portion based on at least one of the first optical radiation or the second optical radiation, wherein the at least one second arrangement is further configured to, as a function of the penetration depth, control the optical radiation path length range.

6. The apparatus for obtaining information associated with at least one structure, comprising:
- at least one optical coupler first arrangement configured to receive at least one first optical radiation from the at least one structure and at least one second optical radiation from a reference; and
  
  at least one computer second arrangement configured to determine the information regarding the at least one structure as a function of depth thereof, wherein the at least one second arrangement is further configured to determine a distance from at least one portion of the at least one structure to the at least one first arrangement based on the information,wherein the at least one computer second arrangement is further configured to, as a function of the distance, control an optical radiation path length of a third optical radiation which is at least one of;
  
  i. at least one of transmitted to or received from the at least one structure, orii. at least one of transmitted to or received from the reference,wherein the at least one computer second arrangement is further configured to determine the distance using at least one of a zero-th order procedure, a first derivative procedure, a second derivative procedure, a determination of a probability distribution function statistics or a fitting procedure as applied to the information which is based on the depth,wherein the at least one second arrangement is further configured to determine a length from the at least one portion based on the at least one first optical radiation, andwherein the at least one second arrangement is further configured to, as a function of the length, control a focal distance of the at least one third optical radiation which is at least one of transmitted to or received from the at least one structure.

8. An apparatus for obtaining information associated with at least one structure, comprising:
- at least one lens first arrangement configured to receive at least one first optical radiation from the at least one structure; and
  
  at least one computer second arrangement configured to determine a length from at least one portion of the at least one structure based on the at least one first optical radiation, wherein the at least one computer second arrangement is further configured to, as a function of the length, control a focal distance of at least one of at least one second optical radiation which is at least one of transmitted to or received from the at least one structure.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
- - 9. The apparatus according to claim 8, wherein the at least one portion is a surface of the at least one structure.
  - 10. The apparatus according to claim 8, wherein the at least one second arrangement is further configured to determine a distance from the at least one portion based on at least one of the at least one first optical radiation or at least one third electromagnetic radiation received from a reference, wherein the at least one second arrangement is further configured to, as a function of the distance, control an optical radiation path length of the at least one second optical radiation which is at least one:
    - i. at least one of transmitted to or received from the at least one structure, orii. at least one of transmitted to or received from the reference.
  - 11. The apparatus according to claim 10, wherein the at least one second arrangement is further configured to determine the distance using at least one of a zero-th order procedure, a first derivative procedure, a second derivative procedure, a determination of a probability distribution function statistics or a fitting procedure.
  - 12. The apparatus according to claim 8, wherein the at least one structure includes an anatomical structure.
  - 13. The apparatus according to claim 10, wherein the at least one second arrangement is further configured to (i) obtain information associated with the at least one structure associated the controlled optical radiation path length, and (ii) generate at least one image of the at least one portion as a function of the information.
  - 14. The apparatus according to claim 8, wherein the at least one second arrangement is further configured to control an optical radiation path length while an image of the at least one portion is generated.
  - 15. The apparatus according to claim 8, wherein the at least one first arrangement is further configured to receive at least one third optical radiation from a reference, and wherein at least one second arrangement is configured to determine the distance from the at least one portion based on at least one of the first optical radiation or the third electromagnetic radiation.
  - 16. The apparatus according to claim 10, wherein the at least one second arrangement is further configured to determine an optical radiation penetration depth within the at least one portion based on at least one of the first electromagnetic radiation or the third optical radiation, wherein the at least one second arrangement is further configured to, as a function of the penetration depth, control the optical radiation path length range.

17. A method for obtaining information associated with at least one structure, comprising:
- receiving at least one first optical radiation from the at least one structure and at least one second optical radiation from a reference;
  
  determining the information regarding the at least one structure as a function of depth thereof;
  
  determining a distance from at least one portion of the at least one structure based on the information;
  
  tracking at least one peak of at least one signal of the information which includes image data regarding the at least one structure;
  
  as a function of the distance and the at least one peak, controlling an optical radiation path length of at least one third optical radiation which is at least one of;
  
  i. at least one of transmitted to or received from the at least one structure, orii. at least one of transmitted to or received from the reference; and
  
  using a computer arrangement, determining the distance using at least one of a zero-th order procedure, a first derivative procedure, a second derivative procedure, a determination of a probability distribution function statistics or a fitting procedure as applied to the information which is based on the distance and the at least one peak.

18. A method for obtaining information associated with at least one structure, comprising:
- receiving at least one first optical radiation from the at least one structure;
  
  determining a length from at least one portion of the at least one structure based on the at least one first optical radiation; and
  
  using a computer arrangement, as a function of the length, controlling a focal distance of at least one of at least one second optical radiation which is at least one of transmitted to or received from the at least one structure.

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Current Assignee
The General Hospital Corporation (Mass General Brigham, Inc.)
Original Assignee
The General Hospital Corporation (Mass General Brigham, Inc.)
Inventors
Tearney, Guillermo J., Bouma, Brett Eugene
Primary Examiner(s)
Santos Rodriguez, Joseph M

Application Number

US10/136,813
Publication Number

US 20020198457A1
Time in Patent Office

5,775 Days
Field of Search

600407, 600478, 356511
US Class Current
CPC Class Codes

A61B 5/0066   Optical coherence imaging

A61B 5/0068   Confocal scanning

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

A61B 5/6852   Catheters

A61B 5/6853   with a balloon

G01B 2290/35   Mechanical variable delay line

G01B 9/0205   of probe head

G01B 9/02063   by particular alignment of ...

G01B 9/02068   Auto-alignment of optical e...

G01B 9/02083   characterised by particular...

G01B 9/02085   Combining two or more image...

G01B 9/02091   Tomographic interferometers...

G01N 21/4795   spatially resolved investig...

Method and apparatus for improving image clarity and sensitivity in optical coherence tomography using dynamic feedback to control focal properties and coherence gating

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

208 Citations

18 Claims

Specification

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Method and apparatus for improving image clarity and sensitivity in optical coherence tomography using dynamic feedback to control focal properties and coherence gating

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

208 Citations

18 Claims

Specification

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Solutions

Use Cases

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