Cylindrical multi-contact electrode lead for neural stimulation and method of making same
First Claim
Patent Images
1. A method of making an implantable lead comprising:
- providing a plurality of ring contacts, wherein each ring contact is mechanically and electrically connected to at least one of a plurality of wire conductors;
creating a plurality of access ports in at least a distal end of a polymer tube body, wherein the access ports extend from an exterior of the polymer tube body to an inside area of the polymer tube body;
threading each wire conductor through a corresponding one of the access ports;
sliding the ring contacts over the tube body; and
attaching the plurality of ring contacts to at least a distal end of the tube body with an adhesive;
wherein threading each wire conductor through a corresponding one of the access ports and sliding the ring contacts over the tube body occur after providing a plurality of ring contacts mechanically and electrically connected to at least one of a plurality of wire conductors,wherein the adhesive is applied to at least one edge of the ring contact after the ring contacts are slid over the tube body, andwherein the adhesive at least partially fills a deformation created by constriction of the tubular body by the ring contact.
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Abstract
An implantable lead includes a tubular polymer body having a plurality of wire conductors embedded or carried within the inner tube body. A ring contact, e.g., a platinum ring contact, is electrically and mechanically connected to at least one of the plurality of wires at at least one end of the tubular body. In one embodiment, ring contacts are attached at both ends of the tubular body. In another embodiment, a lumen passes longitudinally through the length of the lead body.
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Citations
19 Claims
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1. A method of making an implantable lead comprising:
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providing a plurality of ring contacts, wherein each ring contact is mechanically and electrically connected to at least one of a plurality of wire conductors; creating a plurality of access ports in at least a distal end of a polymer tube body, wherein the access ports extend from an exterior of the polymer tube body to an inside area of the polymer tube body; threading each wire conductor through a corresponding one of the access ports; sliding the ring contacts over the tube body; and attaching the plurality of ring contacts to at least a distal end of the tube body with an adhesive; wherein threading each wire conductor through a corresponding one of the access ports and sliding the ring contacts over the tube body occur after providing a plurality of ring contacts mechanically and electrically connected to at least one of a plurality of wire conductors, wherein the adhesive is applied to at least one edge of the ring contact after the ring contacts are slid over the tube body, and wherein the adhesive at least partially fills a deformation created by constriction of the tubular body by the ring contact. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of making an implantable lead comprising:
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providing a plurality of ring contacts, wherein each ring contact is mechanically and electrically connected to at least one of a plurality of wire conductors; creating a plurality of access ports in at least a distal end of a polymer tube body, wherein the access ports extend from an exterior of the polymer tube body to an inside area of the polymer tube body; threading each wire conductor through a corresponding one of the access ports; sliding the ring contacts over the tube body; and inserting a spacer into the inside area of the polymer tube body before adding a filler material to the inside area and then removing the spacer, thereby forming a central lumen within the polymer body, wherein threading each wire conductor through a corresponding one of the access ports and sliding the ring contacts over the tube body occur after providing a plurality of ring contacts mechanically and electrically connected to at least one of a plurality of wire conductors.
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9. A method of making an implantable lead comprising:
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providing a plurality of ring contacts, wherein each ring contact is mechanically and electrically connected to at least one of a plurality of wire conductors; creating a plurality of access ports in at least a distal end of a polymer tube body, wherein the access ports extend from an exterior of the polymer tube body to an inside area of the polymer tube body; threading each wire conductor through a corresponding one of the access ports; and sliding the ring contacts over the tube body, wherein threading each wire conductor through a corresponding one of the access ports and sliding the ring contacts over the tube body occur after providing a plurality of ring contacts mechanically and electrically connected to at least one of a plurality of wire conductors, and wherein sliding the ring contact over the tube body comprises applying tension to the tube body to allow each of the ring contacts to slide over the corresponding one of the access ports.
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10. An implantable lead comprising:
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a tubular body having a plurality of wire conductors disposed within the tubular body, wherein each wire conductor is threaded through an access port in the tubular body; a plurality of ring contacts, wherein each ring contact is electrically and mechanically attached to at least one of the plurality of wire conductors at least one end of the tubular body; and an adhesive disposed on at least one edge of at least one ring contact, wherein the adhesive at least partially fills a deformation created by constriction of the tubular body by the ring contact. - View Dependent Claims (11, 12, 13, 14)
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15. An implantable neural stimulation system, comprising:
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an electronic control unit; and an implantable lead electrically coupled to the electronic control unit, the implantable lead comprising a tubular body having a plurality of access ports formed therethrough, a plurality of ring contacts disposed on the tubular body, a plurality of wire conductors, wherein each of the wire conductors is electrically and mechanically attached to a corresponding one of the ring contacts and is threaded through a corresponding one of the access ports over which the corresponding one of the ring contacts is disposed; and an adhesive disposed on at least one edge of at least one ring contact, wherein the adhesive at least partially fills a deformation created by constriction of the tubular body by the ring contact. - View Dependent Claims (16, 17, 18, 19)
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Specification