Electrophysiology/ablation catheter having lariat configuration of variable radius

US 7,081,114 B2
Filed: 05/13/2003
Issued: 07/25/2006
Est. Priority Date: 11/29/2000
Status: Expired due to Term

First Claim

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1. An electrophysiology/ablation catheter comprising:

a) an elongated flexible tubular casing having a proximal end and at least one electrode disposed at a distal end thereof, said tubular casing having a pre-formed bend therein adjacent a proximal side of the at least one electrode;

b) a catheter deflection assembly disposed in said casing and including a pair of tension/compression members extending through said casing, wherein each member of said pair of tension/compression members has a first portion thereof adjacent said distal end formed to have a flattened transverse section, and a second portion located in a region of said pre-formed bend having a circular cross-section oriented substantially at a right angle to said first portion;

c) an electrical lead connected to each of said electrodes and extending through the tubular casing to the proximal end thereof, said lead adapted for external connection thereof; and

d) an actuator connected to the proximal end of the catheter deflection assembly and operable upon movement to effect lateral displacement of the distal end in a curvature greater than 360 degrees and in a plane nonparallel to a longitudinal extent of the catheter.

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Abstract

A remotely deflectable electrophysiology/ablation catheter of the type intended for placing into an interior passage of the heart is disclosed. The distal end of this elongated tubular catheter has a pair of tension/compression members each with a flattened end portion connected to the distal electrode and extending through the catheter casing and attached to a user moveable actuator for effecting the tension/compression thereon for remotely curling the distal end of the catheter. Spaced ring electrodes are provided adjacent the distal electrode. A permanent bend is pre-formed in the casing and tension/compression members adjacent the ring electrodes about an axis perpendicular to the elongated tension/compression members. Movement of the remote actuator causes the distal portion of the catheter to curl into a lariat in a plane perpendicular to the axis along the elongated catheter casing, thus permitting electrical mapping or ablation with the distal and/or ring electrodes about the inner surface of the heart passage into which the lariat is formed and situated. The lariat can achieve a curvature greater than 360 degrees and at a significantly reduced radius to allow insertion of the catheter distal end into passages of reduced dimension.

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10 Claims

1. An electrophysiology/ablation catheter comprising:
- a) an elongated flexible tubular casing having a proximal end and at least one electrode disposed at a distal end thereof, said tubular casing having a pre-formed bend therein adjacent a proximal side of the at least one electrode;
  
  b) a catheter deflection assembly disposed in said casing and including a pair of tension/compression members extending through said casing, wherein each member of said pair of tension/compression members has a first portion thereof adjacent said distal end formed to have a flattened transverse section, and a second portion located in a region of said pre-formed bend having a circular cross-section oriented substantially at a right angle to said first portion;
  
  c) an electrical lead connected to each of said electrodes and extending through the tubular casing to the proximal end thereof, said lead adapted for external connection thereof; and
  
  d) an actuator connected to the proximal end of the catheter deflection assembly and operable upon movement to effect lateral displacement of the distal end in a curvature greater than 360 degrees and in a plane nonparallel to a longitudinal extent of the catheter.

2. An electrophysiology/ablation catheter comprising:
- a) an elongated flexible tubular casing having a proximal end and at least one electrode disposed at a distal end thereof, said tubular casing having a pre-formed bend therein adjacent a proximal side of the at least one electrode;
  
  b) a catheter deflection assembly disposed in said casing and including a pair of tension/compression members extending through said casing, wherein said tension/compression members have a transversely resilient spacer disposed there between in the distal portion thereof;
  
  c) an electrical lead connected to each of said electrodes and extending through the tubular casing to the proximal end thereof, said lead adapted for external connection thereof; and
  
  d) an actuator connected to the proximal end of the catheter deflection assembly and operable upon movement to effect lateral displacement of the distal end in a curvature greater than 360 degrees and in a plane nonparallel to a longitudinal extent of the catheter.

3. An electrophysiology/ablation catheter comprising:
- a) an elongated flexible tubular casing having a proximal end and at least one electrode disposed at a distal end thereof, said tubular casing having a pre-formed bend therein adjacent a proximal side of the at least one electrode;
  
  b) a catheter deflection assembly disposed in said casing;
  
  c) an electrical lead connected to each of said electrodes and extending through the tubular casing to the proximal end thereof, said lead adapted for external connection thereof; and
  
  d) an actuator connected to the proximal end of the catheter deflection assembly and operable upon movement to effect lateral displacement of the distal end in a curvature greater than 360 degrees and in a plane nonparallel to a longitudinal extent of the catheter, wherein said lateral displacement comprises a curvature having a radius as small as five multiples of a transverse dimension of said casing.

4. A method of disposing an electrophysiology/ablation catheter in an associated body cavity comprising the steps of:
- a) providing an elongated tubular catheter, disposing at least one electrode on a distal end thereof, and pre-forming a bend in the tubular catheter adjacent a proximal side of the at least one electrode;
  
  b) disposing a pair of tension/compression members in the tubular catheter adjacent to the distal end and extending the members to adjacent a proximal end of said catheter;
  
  c) connecting an actuator to the tension compression members adjacent the proximal end of the catheter;
  
  d) moving the actuator and tensioning one member of the pair of tension/compression members and simultaneously compressing the other member of the pair and curling the distal end of the tubular catheter in a lariat having a curvature greater than 360 degrees and in a plane nonparallel to a longitudinal extent of the catheter;
  
  e) disposing the lariat in the associated body cavity to orient the electrodes in a circumferential direction about an inner periphery of the associated body cavity; and
  
  (f) opening the lariat after the lariat disposing step.

5. A method of disposing an electrophysiology/ablation catheter in an associated body cavity comprising the steps of:
- a) providing an elongated tubular catheter, disposing at least one electrode on a distal end thereof, and pre-forming a bend in the tubular catheter adjacent a proximal side of the at least one electrode;
  
  b) disposing a pair of tension/compression members in the tubular catheter adjacent to the distal end and extending the members to adjacent a proximal end of said catheter;
  
  c) connecting an actuator to the tension compression members adjacent the proximal end of the catheter;
  
  d) moving the actuator and tensioning one member of the pair of tension/compression members and simultaneously compressing the other member of the pair and curling the distal end of the tubular catheter in a lariat having a curvature greater than 360 degrees and in a plane nonparallel to a longitudinal extent of the catheter; and
  
  e) disposing the lariat in the associated body cavity to orient the electrodes in a circumferential direction about an inner periphery of the associated body cavity, wherein the lariat curving step includes curving the distal end of the tubular catheter in a radius of curvature as small as five multiples of a transverse dimension of the tubular catheter.

6. A method of disposing an electrophysiology/ablation catheter in an associated body cavity comprising the steps of:
- a) providing an elongated tubular catheter, disposing at least one electrode on a distal end thereof, and pre-forming a bend in the tubular catheter adjacent a proximal side of the at least one electrode;
  
  b) disposing a pair of tension/compression members in the tubular catheter adjacent to the distal end and extending the members to adjacent a proximal end of said catheter;
  
  c) connecting an actuator to the tension compression members adjacent the proximal end of the catheter;
  
  d) moving the actuator and tensioning one member of the pair of tension/compression members and simultaneously compressing the other member of the pair and curling the distal end of the tubular catheter in a lariat having a curvature greater than 360 degrees and in a plane nonparallel to a longitudinal extent of the catheter, wherein the curvature of the distal end is reduced such that the lariat has a radius smaller than the radius of an inner periphery of the associated body cavity;
  
  e) disposing the lariat in the associated body cavity to orient the electrodes in a circumferential direction about the inner periphery of the associated body cavity; and
  
  (f) opening the lariat after the lariat disposing step to a final curvature that is generally equal to the radius of the inner periphery.
- View Dependent Claims (7)
- - 7. The method defined in claim 6 wherein the distal end of the catheter, in the distal end curling step, may be curled into a lariat with an inside diameter as small as approximately 10 millimeters.

8. A method of mapping/ablating an associated pulmonary vein/artery in a heart comprising the steps of:
- a) providing a catheter having a plurality of spaced electrodes disposed on a distal end thereof;
  
  b) inserting the distal end of the catheter in one of the associated vein/artery in the heart;
  
  c) curling the catheter in the heart normal to the direction of elongation of the catheter and forming a lariat having a curvature of radius R_v; and
  
  d) opening the lariat to a curvature having a radius R_fto orient the electrodes circumferentially about the inner periphery of the associated vein/artery.
- View Dependent Claims (9, 10)
- - 9. The method defined in claim 8, wherein the step of inserting includes forming a pre-formed bend in the catheter having a curvature of radius R_i.
  - 10. The method defined in claim 9, wherein the step of curling includes curling in a plane normal to the pre-formed bend.

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Current Assignee
St. Jude Medical (Abbott Laboratories Incorporated)
Original Assignee
St. Jude Medical (Abbott Laboratories Incorporated)
Inventors
Rashidi, Rassoll
Primary Examiner(s)
Johnson, III, Henry M.

Application Number

US10/436,779
Publication Number

US 20040034348A1
Time in Patent Office

1,169 Days
Field of Search

600/374, 600/381, 600/41, 607/122, 607/125, 128/898
US Class Current

606/41
CPC Class Codes

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

A61B 2017/00243   cardiac

A61B 2017/003   Steerable

A61B 2018/00184   Moving parts

A61B 2018/00357   Endocardium

A61B 2018/00577   Ablation

Electrophysiology/ablation catheter having lariat configuration of variable radius

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

1499 Citations

10 Claims

Specification

Use Cases

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Electrophysiology/ablation catheter having lariat configuration of variable radius

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

1499 Citations

10 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others