Cochlear electrode array employing tantalum metal
First Claim
1. An implantable tissue-stimulating prosthesis comprisingimplantable stimulus-forming electronic circuitry hermetically sealed in a package, said package comprising a tantalum feedthrough which provides an electrical path to the stimulus-forming circuitry hermetically sealed within said package, and a noble metal feedthrough that provides a return electrical path to the stimulus-forming circuitry hermetically sealed within said package;
- at least one electrode contact made from sintered, anodized tantalum;
at least one tantalum wire lead connecting a respective at least one electrode contact to the tantalum feedthrough, whereby the electrode contact is electrically connected to the tantalum feedthrough, and hence to the stimulus-forming electronic circuitry;
a layer of tantalum pentoxide covering said tantalum electrode contact and at least those portions of said tantalum wire lead that are exposed to body fluids;
a counterelectrode contact made from activated iridium; and
a noble metal lead connecting the counterelectrode to the noble metal feedthrough;
wherein the implanted stimulus-forming electronic circuitry comprisesmeans for deriving a source of operating potential Vs,means for maintaining an anodic voltage +Vp between the tantalum feedthrough and the noble metal feedthrough, with the tantalum feedthrough being positive relative to the noble metal feedthrough, the anodic voltage +Vp being no greater than about 1/2 of the operating potential Vs, andmeans for varying the voltage that is applied between the tantalum feedthrough and the noble metal feedthrough by an amount ±
.increment. so as to cause a balanced biphasic current pulse to flow between the tantalum electrode and the iridium counterelectrode.
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Accused Products
Abstract
An implant device uses tantalum and tantalum pentoxide as a complete system for the conveyance of electrical stimulation pulses from stimulus-forming circuitry contained within an hermetic enclosure to the saline fluids of the cochlea (or other tissue to be stimulated). Internal coupling capacitors are not used, yet the danger of having DC current flow to the saline fluids is eliminated. A preferred embodiment is a cochlear prosthesis comprised of a multiplicity of electrode contacts made from sintered, anodized tantalum, connected via tantalum wire leads to tantalum feedthroughs into the hermetically sealed package containing the stimulus pulse-forming electronic circuitry. One or more counterelectrode contacts (for monopolar or bipolar configurations, respectively) consist of activated iridium, connected via platinum or other noble metal leads to noble metal feedthroughs. When powered-up, the stimulus generating circuit produces a steady polarizing potential of approximately half its maximum output voltage range, which potential is applied as a positive (anodizing) voltage to each tantalum electrode and associated lead and feedthrough, with respect to the activated iridium electrode(s), which act as the reference point for the circuit.
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Citations
7 Claims
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1. An implantable tissue-stimulating prosthesis comprising
implantable stimulus-forming electronic circuitry hermetically sealed in a package, said package comprising a tantalum feedthrough which provides an electrical path to the stimulus-forming circuitry hermetically sealed within said package, and a noble metal feedthrough that provides a return electrical path to the stimulus-forming circuitry hermetically sealed within said package; -
at least one electrode contact made from sintered, anodized tantalum; at least one tantalum wire lead connecting a respective at least one electrode contact to the tantalum feedthrough, whereby the electrode contact is electrically connected to the tantalum feedthrough, and hence to the stimulus-forming electronic circuitry; a layer of tantalum pentoxide covering said tantalum electrode contact and at least those portions of said tantalum wire lead that are exposed to body fluids; a counterelectrode contact made from activated iridium; and a noble metal lead connecting the counterelectrode to the noble metal feedthrough; wherein the implanted stimulus-forming electronic circuitry comprises means for deriving a source of operating potential Vs, means for maintaining an anodic voltage +Vp between the tantalum feedthrough and the noble metal feedthrough, with the tantalum feedthrough being positive relative to the noble metal feedthrough, the anodic voltage +Vp being no greater than about 1/2 of the operating potential Vs, and means for varying the voltage that is applied between the tantalum feedthrough and the noble metal feedthrough by an amount ±
.increment. so as to cause a balanced biphasic current pulse to flow between the tantalum electrode and the iridium counterelectrode.
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2. An implantable tissue-stimulating prosthesis comprising
implanted stimulus-forming electronic circuitry hermetically sealed in a package, said package including a plurality of tantalum feedthroughs which provide an electrical path to the stimulus-forming circuitry hermetically sealed in said package, and at least one noble metal feedthrough that provides a return electrical path to the stimulus-forming circuitry hermetically sealed in said package; -
a plurality of electrode contacts made from sintered, anodized tantalum; a plurality of tantalum wire leads, each connecting one of the plurality of electrode contacts to a respective one of the plurality of tantalum feedthroughs, whereby each of the plurality of electrode contacts is electrically connected to one of the plurality of tantalum feedthroughs; at least one counterelectrode contact made from activated iridium; and at least one lead made from a noble metal connecting the at least one counterelectrode to the at least one noble metal feedthrough; wherein said implanted stimulus-forming electronic circuitry comprises; means for deriving a single source of operating potential Vs and applying said potential Vs to maintain an anodic polarization between the tantalum feedthrough and the noble metal feedthrough when stimulation is not desired, and means for generating a biphasic stimulus between a selected one of said anodized tantalum electrode contacts and said at least one counterelectrode when stimulation is desired, including means for controlling a cathodal phase of the biphasic stimulus by discharging electrical charge stored by a capacitance formed by said anodized tantalum electrode contact, said activated iridium electrode contact and intervening tissues and fluids. - View Dependent Claims (3, 4)
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5. A cochlear prosthesis comprising:
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an hermetically sealed package wherein stimulus pulse-forming electronic circuitry is housed; a multiplicity of tantalum feedthroughs, each of which provides electrical contact with the pulse-forming electronic circuitry within the hermetically sealed package; a multiplicity of electrode contacts, each electrode contact being connected to a respective one of said multiplicity of tantalum feedthroughs via a respective tantalum wire lead, whereby each electrode contact is electrically connected to the pulse-forming electronic circuitry; at least one iridium counterelectrode outside of said hermetically sealed package; at least one noble metal feedthrough connected to said at least one iridium counterelectrode via a respective noble metal lead outside of said hermetically sealed package, and connected to said pulse-forming electronic circuitry within said hermetically sealed package; potential means within said hermetically sealed package for maintaining a first anodic voltage between each of the multiplicity of tantalum feedthroughs and the at least one noble metal feedthrough, with each tantalum feedthrough being maintained positive relative to the at least one noble metal feedthrough; and means for causing a balanced biphasic current pulse to flow between at least one of the electrodes connected to a respective tantalum feedthrough and the iridium counterelectrode by varying said first anodic voltage by a predetermined amount. - View Dependent Claims (6, 7)
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Specification