Laser system and method for treatment of biological tissues

US 7,220,256 B2
Filed: 09/23/2003
Issued: 05/22/2007
Est. Priority Date: 03/13/2001
Status: Expired due to Fees

First Claim

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1. A laser system comprising:

a. a laser source for generating laser light comprising laser bursts comprising laser pulses; and

b. a laser applicator for delivering a portion of the laser light to a target vascular tissue area, the laser applicator comprising;

i. a trunk optical fiber;

ii. an endo-probe coupled to the trunk optical fiber including a side-firing delivery optical fiber with an input end for receiving laser radiation from the trunk optical fiber and an extended firing portion for delivering the portion of the laser light to the target vascular tissue area; and

iii. a shielding structure coupled to the endo-probe including a housing portion that surrounds a section of the delivery optical fiber and a beam-blocking portion to block forward propagation of the laser.

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Abstract

A system for and method of performing laser assisted surgery is disclosed. Laser radiation is preferably delivered to a target area of tissue using a Er:YAG laser source. The laser radiation is delivered to the target area in bursts of laser radiation comprising sets of laser pulses. The bursts of laser radiation are preferably delivered to the target area at a repetition rate in a range of 10 to 40 Hz and with sufficient pulse fluences to cut and/or dissect. In accordance with a preferred embodiment, interchangeable and flexible endo-probes are configured with shield features. The shield features control the emission of laser radiation from the optical fiber while bending the flexible probes allow surgeons to access a range of approach angles for the laser treatment of biological tissue enclosed or within a cavity of a body. The probes can also be configured with mechanical cutters or other structures which allow for the mechanical manipulation of tissue during laser treatment. The system for and method of performing laser assisted surgery is particularly well suited for treating fibrous and/or fibro-vascular membranes (FVMs) on ophthalmic tissue during vitreoretinal surgery.

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27 Claims

1. A laser system comprising:
- a. a laser source for generating laser light comprising laser bursts comprising laser pulses; and
  
  b. a laser applicator for delivering a portion of the laser light to a target vascular tissue area, the laser applicator comprising;
  
  i. a trunk optical fiber;
  
  ii. an endo-probe coupled to the trunk optical fiber including a side-firing delivery optical fiber with an input end for receiving laser radiation from the trunk optical fiber and an extended firing portion for delivering the portion of the laser light to the target vascular tissue area; and
  
  iii. a shielding structure coupled to the endo-probe including a housing portion that surrounds a section of the delivery optical fiber and a beam-blocking portion to block forward propagation of the laser.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The system of claim 1, wherein the laser source is configured to generate laser light with energy corresponding to between 1 and 200 mJ/per pulse.
  - 3. The system of claim 1, wherein the laser source is configured to generate the laser bursts with a repetition rate of between 40 and 10 Hz.
  - 4. The system of claim 1, wherein the laser source is configured to generate the laser bursts with a separation of less than 2.0 milliseconds.
  - 5. The system of claim 1, wherein the laser burst comprises between 1–
    - 24 laser pulses.
  - 6. The system of claim 4, wherein the laser pulses are separated by less than 2.0 milliseconds.
  - 7. The system of claim 5, wherein the laser pulses have pulse widths of less than 100 microseconds.
  - 8. The system of claim 1, wherein the side-firing delivery optical fiber has a firing end with a diameter of less than 500 microns.
  - 9. The system of claim 8, wherein the delivery optical fiber is selected from the group consisting of fused silica fiber and a sapphire fiber.
  - 10. The system of claim 1, wherein the housing portion is flexible to control approach angles of the side-firing delivery optical fiber from the vascular tissue.

11. A laser system comprising:
- a. means to generate bursts of laser light comprising laser pulses;
  
  b. means to focus the laser light into a trunk optical fiber;
  
  c. a flexible endo-probe coupled to the trunk optical fiber, the endo-probe comprising a delivery optical fiber with an input end for receiving laser radiation from the trunk optical fiber and a firing end, the flexible endo-probe further comprising a shroud feature that surrounds a portion of the delivery optical fiber; and
  
  d. means to adjust an approach of the delivery optical fiber to the target area of vascular tissue during use, wherein the means to adjust the approach of the delivery optical fiber comprises a mechanism to slidably extend the delivery optical fiber from the endo-probe.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
- - 12. The laser system of claim 11, wherein the input end of the delivery optical fiber has a diameter of less than 500 microns.
  - 13. The laser system of claim 11, wherein the firing end of the delivery optical fiber has a diameter of 300 micron or less.
  - 14. The laser system of claim 11, wherein the firing end of the delivery optical fiber has a diameter in a range of 50 to 225 micron.
  - 15. The laser system of claim 11, wherein the means to adjust an approach of the delivery optical fiber to the target area is configured to adjust the firing end of the delivery optical fiber at angles between 0 and 90 degrees.
  - 16. The laser system of claim 11, wherein the means to generate bursts of laser light comprises an Er:
    - YAG laser medium.
  - 17. The laser system of claim 11, wherein the means to generate bursts of laser light is configured to provide between 5 and 200 mJ/per pulse.
  - 18. The laser system of claim 11, wherein the means to generate bursts of laser light is configured to generate laser pulses with a repetition rate between 40 and 10 Hz.
  - 19. The laser system of claim 11, wherein the means to generate bursts of laser light is configured to generate bursts of laser light that are less than 2.0 milliseconds.
  - 20. The laser system of claim 11, wherein the means to generate bursts of laser light is configured to generate 1–
    - 20 laser pulses for each laser burst.
  - 21. The laser system of claim 20, wherein the means to generate bursts of laser light is configured to generate the laser pulses at pulse separations of less than 2.0 milliseconds.
  - 22. The laser system of claim 11, wherein the delivery optical fiber is selected from the group consisting of a fused silica fiber and sapphire fiber.
  - 23. The laser system of claim 11, wherein the trunk fiber is a sapphire optical fiber.
  - 24. The laser system of claim 11 wherein the delivery optical fiber is slidably extendable when the endo-probe is situated within a tissue cavity.
  - 25. The laser system of claim 11, wherein the means to adjust the approach of the delivery optical fiber comprises a mechanism to adjust the approach angle through a range of angles.

26. A laser system comprising:
- a. a laser source to generate bursts of laser light comprising laser pulses;
  
  b. a trunk optical fiber coupled to the laser source to receive the laser pulses;
  
  c. an endo-probe coupled to the trunk optical fiber, the endo-probe comprising a side-firing delivery optical fiber with a body portion and a side-firing portion that extends outward from the body portion; and
  
  d. a shroud feature that surrounds the body portion of the side-firing delivery optical fiber and has a beam-blocking structure to block forward propagation of laser light, wherein the side-firing portion of the side-firing delivery optical fiber emits the laser light at an angle between 30 and 45 degrees relative to an axis of the body portion of the side-firing optical fiber.
- View Dependent Claims (27)
- - 27. The laser system of claim 26, wherein the adjusting mechanism comprises a mechanism to slidably extend the delivery optical fiber from the shroud feature.

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Current Assignee
Daniel K. Negus, Daniel Paul Joseph, James L. Hobart, Peter Nigel Allen
Original Assignee
Daniel K. Negus, Daniel Paul Joseph, James L. Hobart, Peter Nigel Allen
Inventors
Hobart, James L., Joseph, Daniel Paul, Allen, Peter Nigel, Negus, Daniel K.
Primary Examiner(s)
PEFFLEY, MICHAEL F

Application Number

US10/669,294
Publication Number

US 20040133190A1
Time in Patent Office

1,337 Days
Field of Search

606 2- 6, 606 10- 15
US Class Current

606/15
CPC Class Codes

A61B 18/22   the beam being directed alo...

A61F 2009/00863   Retina

A61F 2009/00874   Vitreous

A61F 9/00736   Instruments for removal of ...

A61F 9/008   using laser

A61F 9/00821   for coagulation

Laser system and method for treatment of biological tissues

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Laser system and method for treatment of biological tissues

First Claim

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Abstract

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27 Claims

Specification

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