Microelectronic interface
First Claim
1. A method for causing or detecting at least one action potential in a portion of a nervous system in a medium which contains ions by means of a device which comprises (a) a pair of microelectrodes supported on the same side of a carrier plate, and (b) means for applying or detecting an electrical potential deference between the pair when the portion of the nervous system is adjacent to the pair, said system and said medium being part of a human or animal body, said method comprising:
- placing the pair of microelectrodes adjacent to each other and implanting said device into said body so that the pair of microelectrodes are adjacent to and alongside the portion of the nervous system and so that the portion is not between the microelectrodes; and
applying a time-varying electrical potential across the microelectrodes so that the current caused by the potential across the microelectrodes is time-varying and passes from one microelectrode through the portion and then to the other microelectrode, so that the potential difference induced in the nervous system is localized to said portion.
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Accused Products
Abstract
A microelectrode interface is disclosed for localizing the stimulation and recording of action potentials at a portion of a nervous system. The shapes of the electrodes are such that the number of ion flux lines actually intersecting a portion of the nervous system to be stimulated is increased or even maximized. This is accomplished by choosing microelectrodes of the shape such that they are at least as large in dimension at locations away from the other microelectrode as are locations close to the other microelectrode. The microelectrodes are on one side of a chip so that it is possible to stimulate a portion of the central nervous system by placing the microelectrodes alongside the portion. By employing microelectrodes on both sides of a chip or plate, the nervous system can be stimulated in a bipolar mode as well as the unipolar mode. The microelectrode on the back side also reduces noise. A circuit is disclosed for applying current only to one or more selected pairs of microelectrodes in an array of microelectrodes. Row and column select lines, switches and multiplexers are used for passing current only between pairs of microelectrodes at selected locations in the array for stimulating a portion of a nervous system only at selected locations.
230 Citations
24 Claims
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1. A method for causing or detecting at least one action potential in a portion of a nervous system in a medium which contains ions by means of a device which comprises (a) a pair of microelectrodes supported on the same side of a carrier plate, and (b) means for applying or detecting an electrical potential deference between the pair when the portion of the nervous system is adjacent to the pair, said system and said medium being part of a human or animal body, said method comprising:
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placing the pair of microelectrodes adjacent to each other and implanting said device into said body so that the pair of microelectrodes are adjacent to and alongside the portion of the nervous system and so that the portion is not between the microelectrodes; and applying a time-varying electrical potential across the microelectrodes so that the current caused by the potential across the microelectrodes is time-varying and passes from one microelectrode through the portion and then to the other microelectrode, so that the potential difference induced in the nervous system is localized to said portion. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A device for causing or detecting change in electrical potential in a portion of a nervous system in a medium which contains ions, said system and said medium being part of a human or animal body, said device comprising:
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a carrier plate; a pair of microelectrodes on one side of said plate, said microelectrodes containing no ionic substance and each having a planar surface adapted to contact said medium; and means for applying or detecting a time-varying electrical potential difference between the planar surfaces of the pair when the portion of the nervous system is adjacent to the pair, wherein said pair of microelectrodes are located adjacent to each other so that when said electrical potential difference applying or detecting means applies a time-varying electrical potential difference between said pair when the portion of the nervous system is adjacent to the microelectrodes, the current passing between the pair is time-varying, between the planar surfaces of the microelectrodes, and substantially focused on the portion, so that a corresponding potential difference is induced in a localized portion of the nervous system. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. A device for measuring impedance in a portion of a nervous system in a medium which contains ions, said system and said medium being part of a human or animal body, said device comprising:
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a pair of microelectrodes; means for determining impedance between the pair, including means for passing a time-varying current between the pair through the movement of ions so that when the portion of the nervous system is adjacent to the pair, at least some of the current passes through said portion, and means for detecting the electrical potential between the pair; and means for connecting said current passing means and said detecting means to said pair. - View Dependent Claims (15)
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16. A device for causing or detecting change in electrical potential in a medium containing ions, said device comprising:
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a pair of microelectrodes suitable for use in said medium wherein each of said microelectrodes has a planar surface and are located relative to each other so that the surfaces are located side-by-side but do not substantially overlap and are separated from each other by at least a region, and so that when electrical potential is applied between them and when the microelectrodes are placed in the medium, ion sin the medium will move between the planar surface of one microelectrode and the planar surface of the other microelectrode to cause an ionic current to flow through said region between the microelectrodes; and means for applying or detecting an electrical potential difference between the pair, wherein when said applying means applies an electrical potential difference between the pair said ionic current causes a change in electrical potential at said region, and wherein the planar surface of each of said pair of microelectrodes is shaped so that said surface is larger in dimension at locations away from the region than at locations adjacent to the region to focus the ionic current at or near the region, so that the effect of the ionic current is localized.
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17. A device for causing or detecting change in electrical potential in nervous tissue located in a medium containing ions, said device comprising:
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a pair of microelectrodes adapted to be placed in said medium, wherein said microelectrodes each has a substantially planar surface, wherein said planar surfaces are located adjacent to each other and in a manner so that the surfaces are located side-by-side but do not substantially overlap each other, so that when electrical potential is applied between them, ions in the medium will move between the planar surfaces of the pair of microelectrode plates causing ionic current to pass between the microelectrodes; and means for applying or detecting an electrical potential difference between the pair, wherein the planar surface of each of said pair of microelectrodes is shaped so that each of the two planar surfaces is larger in dimension at locations away from the other planar surface than at locations adjacent to the other planar surface to focus the ionic current on locations between or adjacent to the two surfaces, so that when nervous tissue is placed in between or adjacent to the surfaces, an action potential is induced in a localized portion of the nervous tissue. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
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Specification