Systems and methods of making and using support elements for elongated members of implantable electric stimulation systems
First Claim
1. A method for forming an implantable lead, the method comprising:
- forming an elongated conductor into a plurality of units, the plurality of units comprisinga first conductor segment extending in a first direction from a beginning point to a first position,a second conductor segment extending in a second direction that is opposite to the first direction from the first position to a second position, anda third conductor segment extending in the first direction from the second position to an endpoint,wherein the conductor segments are arranged so as to form a plurality of single-coil regions and a plurality of multi-coil regions,wherein the plurality of single-coil regions and the plurality of multi-coil regions are arranged in an axially alternating configuration with each individual single-coil region of the plurality of single-coil regions abutted by at least one multi-coil region of the plurality of multi-coil regions,wherein the single-coil regions have a first stiffness and the multi-coil regions have a second stiffness that is greater than the first stiffness;
disposing a plurality of discontinuous, axially-spaced apart support elements over the conductor to increase stiffness solely along selected regions of the conductor, wherein for each of the plurality of single-coil regions one of the support elements is disposed over the single-coil region to decrease differences in stiffness between the single-coil region and the at least one multi-coil region abutting the single-coil region;
disposing the conductor in an elongated outer layer;
coupling a first end of the conductor to an electrode; and
coupling a second end of the conductor to a terminal.
1 Assignment
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Accused Products
Abstract
An implantable lead includes a lead body. A plurality of conductors are disposed within the lead body and electrically couple at least one electrode to at least one terminal. At least one of the conductors includes a plurality of units. Each of the units includes a first conductor segment extending along the lead body from a beginning point to a first position, a second conductor segment extending from the first position to a second position, and a third conductor segment extending along the elongated member from the second position to an endpoint. The conductor segments are arranged so as to form alternating single-coil regions and multi-coil regions. At least one support element is disposed along at least a portion of at least one of the single-coil regions and is configured and arranged to increase the stiffness of the at least one of the single-coil regions.
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Citations
18 Claims
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1. A method for forming an implantable lead, the method comprising:
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forming an elongated conductor into a plurality of units, the plurality of units comprising a first conductor segment extending in a first direction from a beginning point to a first position, a second conductor segment extending in a second direction that is opposite to the first direction from the first position to a second position, and a third conductor segment extending in the first direction from the second position to an endpoint, wherein the conductor segments are arranged so as to form a plurality of single-coil regions and a plurality of multi-coil regions, wherein the plurality of single-coil regions and the plurality of multi-coil regions are arranged in an axially alternating configuration with each individual single-coil region of the plurality of single-coil regions abutted by at least one multi-coil region of the plurality of multi-coil regions, wherein the single-coil regions have a first stiffness and the multi-coil regions have a second stiffness that is greater than the first stiffness; disposing a plurality of discontinuous, axially-spaced apart support elements over the conductor to increase stiffness solely along selected regions of the conductor, wherein for each of the plurality of single-coil regions one of the support elements is disposed over the single-coil region to decrease differences in stiffness between the single-coil region and the at least one multi-coil region abutting the single-coil region; disposing the conductor in an elongated outer layer; coupling a first end of the conductor to an electrode; and coupling a second end of the conductor to a terminal.
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2. An implantable lead comprising:
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a lead body comprising an outer layer and having a distal end, a proximal end, and a longitudinal length; a plurality of electrodes disposed on the distal end of the lead body; a plurality of terminals disposed on the proximal end of the lead body; a plurality of conductors disposed within the outer layer of the lead body, each conductor electrically coupling at least one of the electrodes to at least one of the terminals, wherein at least one of the conductors comprises a plurality of units, each of the units comprising a first conductor segment extending along the lead body from a beginning point to a first position, a second conductor segment extending from the first position to a second position, and a third conductor segment extending along the elongated member from the second position to an endpoint, wherein the conductor segments are arranged so as to form a plurality of single-coil regions and a plurality of multi-coil regions, wherein the plurality of single-coil regions and the plurality of multi-coil regions are arranged along the longitudinal length of the lead body in an axially alternating configuration with each individual single-coil region of the plurality of single-coil regions abutted by at least one multi-coil region of the plurality of multi-coil regions, wherein the single-coil regions have a first stiffness and the multi-coil regions have a second stiffness that is greater than the first stiffness; and a plurality of discontinuous, axially-spaced-apart support elements configured and arranged to increase stiffness solely along selected regions of the lead, wherein for each of the plurality of single-coil regions one of the support elements is disposed over the single-coil region to decrease differences in stiffness between the single-coil region and the at least one multi-coil region abutting the single-coil region. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. An electrical stimulating system comprising:
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a lead comprising an outer layer and having a distal end, a proximal end, and a longitudinal length; a plurality of electrodes disposed on the distal end of the lead; a plurality of terminals disposed on the proximal end of the lead; a plurality of conductors disposed within the outer layer of the lead, each conductor electrically coupling at least one of the electrodes to at least one of the terminals, wherein at least one of the conductors comprises a plurality of units, each of the units comprising a first conductor segment extending along the lead from a beginning point to a first position, a second conductor segment extending from the first position to a second position, and a third conductor segment extending along the elongated member from the second position to an endpoint, wherein the conductor segments are arranged so as to form a plurality of single-coil regions and a plurality of multi-coil regions, wherein the plurality of single-coil regions and the plurality of multi-coil regions are arranged along the longitudinal length of the lead body in an axially alternating configuration with each individual single-coil region of the plurality of single-coil regions abutted by at least one multi-coil region of the plurality of multi-coil regions, wherein the single-coil regions have a first stiffness and the multi-coil regions have a second stiffness that is greater than the first stiffness; and a plurality of discontinuous, axially-spaced apart support elements configured and arranged to increase stiffness solely along selected regions of the lead, wherein for each of the plurality of single-coil regions one of the support elements is disposed over the single-coil region to decrease differences in stiffness between the single-coil region and the at least one multi-coil region abutting the single-coil region; a control module configured and arranged to electrically couple to the proximal end of the lead, the control module comprising a housing, and an electronic subassembly disposed in the housing; and a connector having a proximal end, a distal end, and a longitudinal length, the connector configured and arranged to receive the lead, the connector comprising a connector housing defining a port at the distal end of the connector, the port configured and arranged for receiving the proximal end of the lead, and a plurality of connector contacts disposed in the connector housing, the connector contacts configured and arranged to couple to at least one of the plurality of terminals disposed on the proximal end of the lead. - View Dependent Claims (15, 16, 17, 18)
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Specification