Implantable lead having a shielded bandstop filter comprising a self-resonant inductor for an active medical device
First Claim
1. An implantable lead configured to be permanently or removably connectable to an active implantable medical device, comprising:
- a) a conductor having a length extending from a proximal end to a distal end;
b) an extendable and retractable helix coil electrode contactable with biological tissue disposed at the distal end of the conductor;
c) a bandstop filter disposed in series near, at or within the helix coil electrode, the bandstop filter comprising a self-resonant insulated inductor wherein an equivalent circuit model comprises an inductance in parallel with a capacitance, wherein the bandstop filter equivalent circuit capacitance is at least partially formed from a parasitic capacitance between adjacent turns of the inductor;
d) an electromagnetic shield substantially surrounding the bandstop filter, wherein the bandstop filter equivalent circuit capacitance also includes a parasitic capacitance between the adjacent turns of the coiled or spiral inductor and the shield; and
e) a torque carrier attached between the distal end of the conductor and the helix coil electrode, the torque carrier disposed mechanically in parallel to the bandstop filter such that torque experienced by the helix coil electrode when inserted into the biological tissue is not transmitted to the bandstop filter;
f) wherein the bandstop filter comprises an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz, such that the bandstop filter attenuates RF current flow.
5 Assignments
0 Petitions
Accused Products
Abstract
A shielded component or network for an active medical device (AMD) implantable lead includes (1) an implantable lead having a length extending from a proximal end to a distal end, all external of an AMD housing, (2) a passive component or network disposed somewhere along the length of the implantable lead, the passive component or network including at least one inductive component having a first inductive value, and (3) an electromagnetic shield substantially surrounding the inductive component or the passive network. The first inductive value of the inductive component is adjusted to a account for a shift in its inductance to a second inductive value when shielded.
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Citations
25 Claims
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1. An implantable lead configured to be permanently or removably connectable to an active implantable medical device, comprising:
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a) a conductor having a length extending from a proximal end to a distal end; b) an extendable and retractable helix coil electrode contactable with biological tissue disposed at the distal end of the conductor; c) a bandstop filter disposed in series near, at or within the helix coil electrode, the bandstop filter comprising a self-resonant insulated inductor wherein an equivalent circuit model comprises an inductance in parallel with a capacitance, wherein the bandstop filter equivalent circuit capacitance is at least partially formed from a parasitic capacitance between adjacent turns of the inductor; d) an electromagnetic shield substantially surrounding the bandstop filter, wherein the bandstop filter equivalent circuit capacitance also includes a parasitic capacitance between the adjacent turns of the coiled or spiral inductor and the shield; and e) a torque carrier attached between the distal end of the conductor and the helix coil electrode, the torque carrier disposed mechanically in parallel to the bandstop filter such that torque experienced by the helix coil electrode when inserted into the biological tissue is not transmitted to the bandstop filter; f) wherein the bandstop filter comprises an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz, such that the bandstop filter attenuates RF current flow. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An active fixation tip electrode, comprising:
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a) an extendable and retractable helix coil, electrode contactable with biological tissue disposed at a distal end of an implantable lead; b) a bandstop filter disposed in series near, at or within the helix coil electrode, the bandstop filter comprising a self-resonant inductor wherein an equivalent circuit model comprises and inductance in parallel with a capacitance, wherein the bandstop filter inductance comprises a coiled or spiral inductor, and wherein the bandstop filter capacitance partially comprises a parasitic capacitance formed between adjacent turns of the coiled or spiral inductor; c) a conductor attached in series to the bandstop filter opposite the helix coil electrode, the conductor electrically connected to the implantable lead; d) an electromagnetic shield substantially surrounding the bandstop filter, wherein the bandstop filter capacitance also includes a parasitic capacitance between the adjacent turns of the coiled or spiral inductor and the shield; and e) a torque carrier attached between the conductor and the helix coil electrode; f) wherein the torque carrier is disposed in parallel to the bandstop filter such that torque experienced by the helix coil electrode when inserted into the biological tissue is not transmitted to the bandstop filter; g) wherein the bandstop filter comprises an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz, such that the bandstop filter attenuates RF current flow. - View Dependent Claims (9, 10, 11, 12, 13)
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14. An implantable lead, comprising:
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a) a conductor having a length extending from a proximal end to a distal end; b) a helix coil electrode connectable with biological tissue disposed at the distal end of the conductor; c) an LC circuit disposed in series near, at or within the helix coil electrode, the LC circuit comprising a bandstop filter having an equivalent circuit model comprising an inductance in parallel with a capacitance, wherein the LC circuit is shielded; and d) a torque carrier attached between the distal end of the conductor and the helix coil electrode, the torque carrier disposed mechanically in parallel to the LC circuit such that torque experienced by the helix coil electrode when inserted into the biological tissue is not transmitted to the LC circuit; e) wherein the LC circuit comprises an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz, such that the LC circuit attenuates RF current flow. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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Specification