Microelectrode array system with integrated reference microelectrodes to reduce detected electrical noise and improve selectivity of activation

US 8,359,083 B2
Filed: 04/02/2009
Issued: 01/22/2013
Est. Priority Date: 04/02/2008
Status: Active Grant

First Claim

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1. A microelectrode array system used to sense physiological signals and stimulate signals in a conductive complex physiological solution, comprising:

a dielectric substrate;

a two dimensional array of signal microelectrodes substantially perpendicular to and integrated on the dielectric substrate, wherein each signal microelectrode in the array has a predetermined height relative to the dielectric substrate, wherein the signal microelectrodes are substantially coated with an insulative material to reduce the level of electrical noise received by the signal microelectrodes and have exposed uninsulated tips configured to perform at least one of sensing the physiological signals and stimulating signals in the conductive complex physiological solution; and

at least one reference microelectrode located adjacent to and integrated with the signal microelectrodes on the dielectric substrate, wherein the at least one reference microelectrode is positioned on the dielectric substrate relative to the signal microelectrodes to enable a reduced level of electrical noise to be detected between the reference microelectrode and the signal microelectrodes, wherein the at least one reference microelectrode has a greater exposed uninsulated surface area relative to the exposed tips of each of the signal microelectrodes, and wherein the at least one reference microelectrode measures potential and is used as an electrical reference for the signal measured by the signal microelectrodes.

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Abstract

A microelectrode array system used to sense physiological signals and stimulate physiological tissue to form signals is disclosed. The array includes a dielectric substrate and a two dimensional array of signal microelectrodes substantially perpendicular to and integrated on the dielectric substrate. At least one reference microelectrode is located adjacent to and integrated with the signal microelectrodes on the dielectric substrate. The reference microelectrodes are positioned on the dielectric substrate relative to the signal microelectrodes to enable a reduced level of electrical noise to be detected between the reference microelectrodes and the recording microelectrodes.

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20 Claims

1. A microelectrode array system used to sense physiological signals and stimulate signals in a conductive complex physiological solution, comprising:
- a dielectric substrate;
  
  a two dimensional array of signal microelectrodes substantially perpendicular to and integrated on the dielectric substrate, wherein each signal microelectrode in the array has a predetermined height relative to the dielectric substrate, wherein the signal microelectrodes are substantially coated with an insulative material to reduce the level of electrical noise received by the signal microelectrodes and have exposed uninsulated tips configured to perform at least one of sensing the physiological signals and stimulating signals in the conductive complex physiological solution; and
  
  at least one reference microelectrode located adjacent to and integrated with the signal microelectrodes on the dielectric substrate, wherein the at least one reference microelectrode is positioned on the dielectric substrate relative to the signal microelectrodes to enable a reduced level of electrical noise to be detected between the reference microelectrode and the signal microelectrodes, wherein the at least one reference microelectrode has a greater exposed uninsulated surface area relative to the exposed tips of each of the signal microelectrodes, and wherein the at least one reference microelectrode measures potential and is used as an electrical reference for the signal measured by the signal microelectrodes.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 2. The system of claim 1, wherein, the at least one reference micro electrode is substantially free of the insulative material to enable the reference microelectrodes to have an impedance of substantially zero ohms.
  - 3. The system of claim 1, wherein the at least one reference microelectrode includes a plurality of reference microelectrodes that are positioned on the dielectric substrate relative to the signal microelectrodes to provide electrical shielding to enable a reduced level of electromyogram signals detected between the signal microelectrodes and the reference microelectrodes.
  - 4. The system of claim 1, wherein the at least one reference microelectrode includes a plurality of reference microelectrodes that are electrically connected in parallel to provide electrical shielding to the array of signal microelectrodes.
  - 5. The system of claim 1, wherein the at least one reference microelectrode includes a plurality of reference electrodes that are positioned in a column adjacent the two dimensional array of signal microelectrodes to provide electrical shielding to the array of signal microelectrodes.
  - 6. The system of claim 1, wherein the two dimensional array of signal microelectrodes includes rows of microelectrodes of varying height with respect to the dielectric substrate.
  - 7. The system of claim 1, wherein the two dimensional array of signal microelectrodes includes rows of signal microelectrodes of progressively decreasing height with respect to the dielectric substrate.
  - 8. The system of claim 7, wherein the at least one reference microelectrode includes a plurality of reference microelectrodes that are positioned in a column adjacent a shortest column of signal microelectrodes in the two dimensional array and the reference electrodes are substantially longer than the shortest row of signal electrodes.
  - 9. The system of claim 8, wherein both the column of reference microelectrodes and the shortest column of signal microelectrodes, located adjacent to the column of reference microelectrodes, include a sleeve of insulative material, with the sleeve having a substantially equal height on each of the reference microelectrodes and the shortest signal microelectrodes.
  - 10. The system of claim 1, wherein the at least one reference microelectrode is coated with a conductive material to increase a conductivity of the reference microelectrode.
  - 11. The system of claim 1, wherein the at least one reference microelectrode includes a plurality of reference electrodes that are positioned at outer corners of the two dimensional array of signal microelectrodes to provide electrical shielding to the array of signal microelectrodes.
  - 12. The system of claim 1, wherein the at least one reference microelectrode includes a plurality of reference microelectrodes that are positioned sufficiently remote from an active stimulating electrode in the two dimensional array of signal microelectrodes to provide monopolar stimulation.
  - 13. The system of claim 1, wherein the at least one reference microelectrode is positioned adjacent to an active stimulating electrode in the two dimensional array of signal microelectrodes to provide bipolar stimulation.
  - 14. The system of claim 1, wherein the signal microelectrodes in the two dimensional array are individually electrically addressable.
  - 15. The system of claim 1, wherein the signal electrodes and the at least one reference electrode are penetrating electrodes.
  - 16. A method of performing at least one of sensing physiological signals or stimulating signals in a complex physiological solution, comprising:
    - implanting the system of claim 1 into a patient such that the signal microelectrodes are proximate to at least one of neural tissue or nerve tissue; and
      
      performing at least one of sensing the physiological signals between at least one of the signal microelectrodes and the at least one reference microelectrode, or stimulating the signals in the conductive complex physiological solution by injecting a current between at least one of the signal microelectrodes and the at least one reference microelectrode.
  - 17. The method of claim 16, further comprising the step of stimulating, wherein the stimulating further comprises selectively deactivating a nerve signal by sending a neural signal from the signal microelectrodes to collide with and effectively cancel out an original, undesired nerve impulse.
  - 18. The method of claim 16, further comprising the step of stimulating, wherein the stimulating further providing monopolar stimulation by sending a signal from at least one of the signal microelectrodes located on a first side of the microelectrode array relative to a reference microelectrode located on a substantially opposite side of the microelectrode array.
  - 19. The method of claim 16, further comprising the step of stimulating, wherein the stimulating includes at least one of bipolar and multipolar stimulation to enable various combinations of stimulation useful for focal stimulation and blocking and steering currents.
  - 20. The method of claim 17, wherein the signal electrodes and the at least one reference electrode are penetrating electrodes.

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Current Assignee
University of Utah Research Foundation (State of Utah)
Original Assignee
University of Utah Research Foundation (State of Utah)
Inventors
Clark, Gregory Arthur, Warren, David J., Ledbetter, Noah M., Lloyd, Marcy, Normann, Richard A.
Primary Examiner(s)
Cohen, Lee S
Assistant Examiner(s)
Cardinal, Erin M

Application Number

US12/417,530
Publication Number

US 20090283425A1
Time in Patent Office

1,391 Days
Field of Search

600/372, 600/373, 600/378, 600/383, 600/393, 600544-545, 600/546
US Class Current

600/378
CPC Class Codes

A61B 5/24 Detecting, measuring or rec...

A61B 5/685 Microneedles

Microelectrode array system with integrated reference microelectrodes to reduce detected electrical noise and improve selectivity of activation

First Claim

2 Assignments

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Abstract

Citations

20 Claims

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Microelectrode array system with integrated reference microelectrodes to reduce detected electrical noise and improve selectivity of activation

First Claim

2 Assignments

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Abstract

Citations

20 Claims

Specification

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