Defibrillation patch electrode having conductor-free resilient zone for minimally invasive deployment

US 5,391,200 A
Filed: 03/10/1994
Issued: 02/21/1995
Est. Priority Date: 09/30/1992
Status: Expired due to Term

First Claim

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1. A cardioversion/defibrillation patch electrode for insertion through a thoracoscopic port comprising:

;

an insulative element having first and second opposing surfaces; and

at least two electrically conductive elements disposed on said first surface of said insulative element and separated from each other by a conductor-free region of said first surface of said insulative element, said conductor-free region defining a hinge about which the electrode is caused to bend by deformation forces encountered during implantation from a substantially planar orientation in a relaxed state to a folded, springy orientation, said springy orientation causing said electrode to return to said substantially planar configuration when said deformation forces are removed.

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Abstract

A cardioversion/defibrillation electrode comprising an insulative element which supports one or more planar conductive elements. The conductive elements are spaced apart from each other by a "conductor-free" region, which serves as a spring loaded hinge about which the electrode may preferentially bend. The electrode is thereby spring loaded to adopt a substantially planar orientation in a relaxed state but is capable of bending to a non planar orientation wherein the electrode is folded about the hinge to facilitate intrathoracic introduction. After introduction, the spring loaded hinge causes the electrode to adopt its relaxed substantially planar orientation for attachment on or near the heart surface. Due to the preferential bending in the "conductor-free" region, the electrode conductive elements are not permanently or substantially deformed during implantation.

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14 Claims

1. A cardioversion/defibrillation patch electrode for insertion through a thoracoscopic port comprising:
- ;
  
  an insulative element having first and second opposing surfaces; and
  
  at least two electrically conductive elements disposed on said first surface of said insulative element and separated from each other by a conductor-free region of said first surface of said insulative element, said conductor-free region defining a hinge about which the electrode is caused to bend by deformation forces encountered during implantation from a substantially planar orientation in a relaxed state to a folded, springy orientation, said springy orientation causing said electrode to return to said substantially planar configuration when said deformation forces are removed.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The electrode of claim 1, wherein said at least two conductive elements are substantially coplanar when the electrode is in the substantially planar orientation.
  - 3. The electrode of claim 2, wherein the electrode may bend through approximately 180 degrees such that said at least two electrically conductive elements are substantially parallel to one another in the folded orientation.
  - 4. The electrode of claim 1, having more than two conductor-free regions separating more than two electrically conductive elements disposed on said first surface.
  - 5. The electrode of claim 1, wherein the electrically conductive elements are formed of a conductive mesh.
  - 6. The electrode of claim 1, wherein the electrically conductive elements are formed of foils.
  - 7. The electrode of claim 1, wherein the electrically conductive elements are formed of multi-filar coils.
  - 8. The electrode of claim 1, wherein at least one rib is provided on said second surface perpendicular to said hinge, to augment the spring force of said conductor-free regions.

9. A cardioversion/defibrillation electrode device for insertion through a thoracoscopic port comprising:
- a lead comprising an elongated insulative member and a plurality of insulated conductors extending through said insulative member;
  
  an electrode portion connected to said lead comprising;
  
  an insulative element having first and second opposing surfaces; and
  
  at least two electrically conductive elements disposed on said first surface of said insulative element and separated from each other by a conductor-free region on said first surface of said insulative element, each of said electrically conductive elements being connected to a respective one of said insulated conductors, the conductor-free region defining a hinge about which the electrode portion is caused to bend by deformation forces encountered during implantation from a substantially planar orientation in a relaxed state to a folded, springy orientation, said springy orientation causing said electrode to return to said substantially planar configuration when said deformation forces are removed.
- View Dependent Claims (10, 11, 12)
- - 10. The electrode device of claim 9, further comprising a terminal pin at a proximal end of said lead, each of said insulated conductors electrically connected to said terminal pin.
  - 11. The electrode device of claim 9, wherein said at least two conductive elements are substantially coplanar when said electrode portion is in the substantially planar orientation.
  - 12. The electrode device of claim 11, wherein said electrode portion may bend through approximately 180 degrees such that said at least two electrically conductive elements are substantially parallel to one another in the folded orientation.

13. A method for implanting a cardioversion/defibrillation patch electrode comprising at least two conductive elements disposed on an insulative backing element and separated from each other by a conductor-free region of the insulative backing, the conductor-free region defining a hinge about which the electrode may preferentially bend from a substantially planar orientation in a relaxed state to a folded, springy orientation, the method comprising the steps of:
- bending the electrode about the conductor-free region of the insulative backing to cause the electrode to adopt the folded, springy orientation without deforming said at least two conducting elements;
  
  inserting the electrode into an introducing means;
  
  guiding the introducing means to a region near the surface of the heart; and
  
  forcing the electrode out of the introducing means such that the electrode springily unfolds to adopt the substantially planar orientation without deforming said conducting elements.

14. A cardioversion/defibrillation patch electrode assembly comprising:
- an insertable thoracoscopic tube; and
  
  an electrode folded within said insertable thoracoscopic tube, the electrode further comprising;
  
  an insulative element having first and second opposing surfaces; and
  
  at least two electrically conductive elements disposed on said first surface of said insulative element and separated from each other by a conductor-free region of said first surface of said insulative element, said conductor-free region defining a hinge about which the electrode is caused to bend from a folded, springy orientation within the insertable thoracoscopic tube to a substantially planar orientation in a relaxed state outside said insertable thoracoscopic tube.

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Current Assignee
Cardiac Pacemakers Incorporated (Boston Scientific Corporation)
Original Assignee
Cardiac Pacemakers Incorporated (Boston Scientific Corporation)
Inventors
Hall, Jeffrey A., KenKnight, Bruce H.
Primary Examiner(s)
Sykes, Angela D.

Application Number

US08/209,356
Time in Patent Office

348 Days
Field of Search

128/639, 128/642, 128/644, 607/129, 607/132, 607/142, 607/149, 607/152
US Class Current

607/129
CPC Class Codes

A61N 1/0587 Epicardial electrode system...

Defibrillation patch electrode having conductor-free resilient zone for minimally invasive deployment

First Claim

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570 Citations

14 Claims

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Defibrillation patch electrode having conductor-free resilient zone for minimally invasive deployment

First Claim

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Accused Products

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Abstract

570 Citations

14 Claims

Specification

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Solutions

Use Cases

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