Structures for deploying movable electrode elements

US 5,885,278 A
Filed: 10/11/1994
Issued: 03/23/1999
Est. Priority Date: 10/07/1994
Status: Expired due to Fees

First Claim

Patent Images

1. An electrode support structure comprisinga guide body having a distal end,a flexible spline leg having an axis attached to the distal end of the guide body, the spline leg being flexed to define an arcuate shape,an electrode element carried by the spline leg for movement along its axis, anda control element coupled to the electrode element for remotely imparting force to move the electrode element along the axis of the spline leg without rotation of the guide body, the control element including a first control wire to impart force to move the electrode element in a direction along the spline leg toward the guide body and a second control wire to impart force to move the electrode element in a direction along the spline leg away from the guide body.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

An electrode support structure comprises a guide body having at its distal end a flexible spline leg. The spline leg is flexed to define an arcuate shape to facilitate intimate contact against tissue. An electrode element is carried by the spline leg for movement along its axis. The structure includes a control element coupled to the electrode element. The control element remotely imparts force to move the electrode element along the axis of the spline leg. Therefore, in use, the physician can cause the electrode element to travel along a path that the spline leg defines, without otherwise changing the location of the guide body.

618 Citations

22 Claims

1. An electrode support structure comprisinga guide body having a distal end,a flexible spline leg having an axis attached to the distal end of the guide body, the spline leg being flexed to define an arcuate shape,an electrode element carried by the spline leg for movement along its axis, anda control element coupled to the electrode element for remotely imparting force to move the electrode element along the axis of the spline leg without rotation of the guide body, the control element including a first control wire to impart force to move the electrode element in a direction along the spline leg toward the guide body and a second control wire to impart force to move the electrode element in a direction along the spline leg away from the guide body.
- View Dependent Claims (4, 5, 6, 7)
- - 4. A support structure according to claim 1 or 2 or 3wherein the guide body includes a proximal end, andwherein the control element is located at the proximal end of the guide body.
  - 5. A support structure according to claim 1 or 2 or 3wherein the electrode element comprises at least two bi-polar electrodes separated by an electrically insulating material.
  - 6. A support structure according to claim 1 or 2 or 3wherein the electrode element comprises at least one unipolar electrode mounted on a core body of electrically insulating material.
  - 7. A support structure according to claim 6wherein the electrode comprises a coil wound about the core body.

2. An electrode support structure comprisinga guide body having a distal end,first and second flexible spline legs, each having a near end and a far end, the near ends being attached to the distal end of the guide body and positioned in a circumferentially spaced relationship with the far ends joined at a junction to define an arcuate shape between the near ends of the first and second spline legs,an electrode element carried by at least one of the spline legs for movement along it, anda control element coupled to the electrode element for remotely imparting force to move the electrode element along the at least one spline leg without rotation of the guide body, the control element including a first control wire to impart force to move the electrode element in a direction toward the near end of the at least one spline leg and a second control wire to impart force to move the electrode element in a direction toward the far end of the at least one spline leg.

3. An electrode support structure comprisinga guide body having a distal end,a stiffener extending along an axis outside the distal end of the guide body,at least one flexible spline leg having a near end attached to the distal end of the guide body and a far end extending beyond the distal end of the guide body and attached to the stiffener, the spline leg being normally flexed between the distal guide body end and the stiffener in an arcuate shape that extends along and radially outward of the axis of the stiffener,an electrode element carried by the at least one spline leg for movement along it, anda control element coupled to the electrode element for remotely imparting force to move the electrode element along the at least one spline leg without rotation of the guide body, the control element including a first control wire to impart force to move the electrode element in a direction toward the near end of the at least one spline leg and a second control wire to impart force to move the electrode element in a direction toward the far end of the at least one spline leg.

8. A device for ablating tissue comprisinga guide body having a distal end and a proximal end,a flexible spline leg having an axis, the spline leg including a near end attached to the distal end of the guide body, the spline leg being flexed to define all arcuate shape,an ablation electrode element carried by the spline leg for movement along its axis, anda control element on the proximal end of the guide body and being coupled to the ablation electrode element for remotely imparting force to move the ablation electrode element along the axis of the spline leg without rotation of the guide body, the control element including a first control wire to impart force to move the ablation electrode element in a direction toward the near end of the spline leg and a second control wire to impart force to move the ablation electrode element in a direction away from the near end of the spline leg.
- View Dependent Claims (9, 10, 11)
- - 9. A support structure according to claim 8wherein the ablation electrode element comprises at least two bi-polar electrodes separated by an electrically insulating material.
  - 10. A support structure according to claim 8wherein the ablation electrode element comprises at least one unipolar electrode mounted on a core body of electrically insulating material.
  - 11. A support structure according to claim 10wherein the electrode comprises a coil wound about the core body.

12. An electrode support structure comprisingfirst and second flexible spline legs, each having a near end and a far end, the near ends positioned in a circumferentially spaced relationship with the far ends joined at a junction to define an arcuate shape between the near ends of the first and second spline legs,an electrode element carried by at least one of the spline legs for movement along it, anda control element coupled to the electrode element for remotely imparting force to move the electrode element along the at least one spline leg, the control element including a first control wire to impart force to move the electrode element in a direction toward the near end of the at least one spline leg and a second control wire to impart force to move the electrode element in a direction toward the far end of the at least one spline leg.
- View Dependent Claims (13, 16, 17, 18)
- - 13. A support structure according to claim 12and further including a guide body having a distal end and a proximal end,wherein the near ends of the first and second flexible spline legs are attached to the distal end of the guide body, andwherein the control element is located at the proximal end of the guide body.
  - 16. A support structure according to claim 12 or 14wherein the electrode element comprises at least two bi-polar electrodes separated by an electrically insulating material.
  - 17. A support structure according to claim 12 or 14wherein the electrode element comprises at least one unipolar electrode mounted on a core body of electrically insulating material.
  - 18. A support structure according to claim 17wherein the electrode comprises a coil wound about the core body.

14. An electrode support structure comprisinga guide body having a distal end,a stiffener extending along an axis outside the distal end of the guide body,at least one flexible spline leg having a near end attached to the distal end of the guide body and a far end extending beyond the distal end of the guide body and attached to the stiffener, the spline leg being normally flexed between the distal guide body end and the stiffener in an arcuate shape that extends along and radially outward of the axis of the stiffener,an electrode element carried by the at least one spline leg for movement along it, anda control element coupled to the electrode element for remotely imparting force to move the electrode element along the at least one spline leg, the control element including a first control wire to impart force to move the electrode element in a direction toward the near end of the at least one spline leg and a second control wire to impart force to move the electrode element in a direction toward the far end of the at least one spline leg.
- View Dependent Claims (15)
- - 15. A support structure according to claim 14wherein the guide body includes a proximal end, andwherein the control element is located at the proximal end of the guide body.

19. A device for ablating tissue comprisinga guide body having a distal end and a proximal end,a flexible spline leg having an axis attached to the distal end of the guide body, the spline leg being flexed to define an arcuate shape,an ablation electrode element carried by the spline leg for movement along its axis, anda control element on the proximal end of the guide body and being coupled to the ablation electrode element for remotely imparting force to move the ablation electrode element along the axis of the spline leg, the control element including a first control wire to impart force to move the ablation electrode element in a direction toward one end of the spline leg and a second control wire to impart force to move the ablation electrode element in a direction toward another end of the spline leg.
- View Dependent Claims (20, 21, 22)
- - 20. A support structure according to claim 19wherein the ablation electrode element comprises at least two bi-polar electrodes separated by an electrically insulating material.
  - 21. A support structure according to claim 19wherein the ablation electrode element comprises at least one unipolar electrode mounted on a core body of electrically insulating material.
  - 22. A support structure according to claim 21 wherein the electrode comprises a coil wound about the core body.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
EP Technology (Boston Scientific Corporation)
Original Assignee
EP Technology (Boston Scientific Corporation)
Inventors
Fleischman, Sidney D.
Primary Examiner(s)
Cohen, Lee S.

Application Number

US08/321,424
Time in Patent Office

1,624 Days
Field of Search

128/642, 606/41, 606/45, 606/47, 606/49, 602/122, 602/126, 600/374
US Class Current

606/41
CPC Class Codes

A61B 18/1492   having a flexible, catheter...

A61B 18/1815   using microwaves

A61B 2017/2911   rings

A61B 2018/00083   low, i.e. electrically insu...

A61B 2018/00148   with metal

A61B 2018/00214   Expandable means emitting e...

A61B 2018/00916   with means for switching or...

A61B 2018/00946   slidable

A61B 2018/00952   rotatable

A61B 2018/1407   Loop

A61B 2018/142   at least partly surrounding...

A61N 1/056   Transvascular endocardial e...

Structures for deploying movable electrode elements

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

618 Citations

22 Claims

Specification

Solutions

Use Cases

Quick Links

Structures for deploying movable electrode elements

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

618 Citations

22 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links