Biomedical electrode configuration for suppressing movement artifact

US 9,351,659 B2
Filed: 08/24/2009
Issued: 05/31/2016
Est. Priority Date: 07/28/2009
Status: Active Grant

First Claim

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1. A biomedical sensor for sensing phenomena of a muscle, comprising:

a substrate;

a plurality of conductive areas arranged to be spaced along a length of the substrate and configured as signal detection contacts each with a proximate, distinct respective associated signal reference contact, forming a plurality of signal detection/reference contact pairs spaced along the length, each one in the plurality of signal detection/reference contact pairs being aligned in a direction transversely to the length and in parallel with respect to each other so that each signal detection/reference contact pair produces movement induced artifacts in unison in response to relative movement between the plurality of signal detection/reference contact pairs and the muscle; and

a differential sensing circuit that receives input from each of the signal detection/reference contact pairs and provides an output that is an arithmetic difference between the signals detected at detection contacts measured with respect to the reference contacts, the reference contacts being directly electrically coupled together and to a reference input of the differential sensing circuit, and the detection contacts being provided at separate inputs to the differential sensing circuit, wherein each signal detection/reference contact pair is configured to react in response to the relative movement, wherein at least one common electrical component caused by the relative movement is cancelled out by the differential sensing circuit, and wherein the at least one common electrical component caused by the relative movement includes the movement induced artifacts that are suppressed by the differential sensing circuit.

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Abstract

A biomedical sensor for detecting EMG signals may include a non-conducting fixed framework supporting a symmetrical arrangement of four electrode surfaces, configured as two signal detection contacts, each with a respective associated signal reference contact. The mechanical and electrical configuration act together to suppress movement artifact.

15 Citations

20 Claims

1. A biomedical sensor for sensing phenomena of a muscle, comprising:
- a substrate;
  
  a plurality of conductive areas arranged to be spaced along a length of the substrate and configured as signal detection contacts each with a proximate, distinct respective associated signal reference contact, forming a plurality of signal detection/reference contact pairs spaced along the length, each one in the plurality of signal detection/reference contact pairs being aligned in a direction transversely to the length and in parallel with respect to each other so that each signal detection/reference contact pair produces movement induced artifacts in unison in response to relative movement between the plurality of signal detection/reference contact pairs and the muscle; and
  
  a differential sensing circuit that receives input from each of the signal detection/reference contact pairs and provides an output that is an arithmetic difference between the signals detected at detection contacts measured with respect to the reference contacts, the reference contacts being directly electrically coupled together and to a reference input of the differential sensing circuit, and the detection contacts being provided at separate inputs to the differential sensing circuit, wherein each signal detection/reference contact pair is configured to react in response to the relative movement, wherein at least one common electrical component caused by the relative movement is cancelled out by the differential sensing circuit, and wherein the at least one common electrical component caused by the relative movement includes the movement induced artifacts that are suppressed by the differential sensing circuit.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 20)
- - 2. The biomedical sensor as in claim 1, wherein the substrate is rigid.
  - 3. The biomedical sensor as in claim 1, further comprising:
    - a framework coupled to the substrate, wherein the substrate is a body-directed electrically insulating bottom surface of the framework.
  - 4. The biomedical sensor as in claim 1, wherein the plurality of signal detection/reference contact pairs are spaced apart so that the signal detection contact is aligned to be on the same side of each pair.
  - 5. The biomedical sensor as in claim 1, wherein each of the conductive areas is formed in the shape of a conductive rod aligned in parallel on a plane of the substrate, and projecting from the substrate.
  - 6. The biomedical sensor as in claim 1, wherein each of the conductive areas is formed in the shape of a disc attached to and coplanar with the substrate.
  - 7. The biomedical sensor as in claim 1, wherein each of the conductive areas is formed in a shape of a dome whose cross-sectional profile exhibits a concave curved shape attached to and projecting from the substrate.
  - 8. The biomedical sensor as in claim 1, wherein each of the conductive contact areas are formed of substantially identical material composition, size and shape.
  - 9. The biomedical sensor as claim 1, wherein each of the conductive areas is formed from a noble metal.
  - 10. The biomedical sensor as in claim 1, wherein each of the conductive areas is formed from a conductive plastic.
  - 11. The biomedical sensor as in claim 1, wherein the substrate is contoured in a concave shape to surround each of the conductive areas.
  - 12. The biomedical sensor as in claim 3, wherein the framework includes a protective enclosure retaining a multi-conductor cable electrically connected to signal conditioning and amplifier circuitry interconnected with a projecting portion of the contacts so that only the conductive areas are exposed.
  - 13. The biomedical sensor as in claim 3, wherein the framework includes a protective enclosure retaining wireless communication circuitry, associated control circuitry, power supply, and amplifier interconnected with a projecting portion of the contacts so that only the conductive areas are exposed.
  - 14. The biomedical sensor as in claim 3, wherein framework includes an indicating marker aligned in parallel with a preferred orientation of the sensor with respect to a direction of signal propagation and delineating a location of signal input contacts.
  - 15. The biomedical sensor as in claim 1, wherein the substrate is attached to skin with a double-sided adhesive membrane sheet with cut-out areas aligned with and matching a perimeter of each of the conductive areas.
  - 20. The biomedical sensor as in claim 1, wherein the proximal arrangement is a side-by-side arrangement of the signal detection contact with the respective reference contact of each signal detection/reference contact pair, each signal detection contact being associated on a one-to-one basis with a different reference contact in each signal detection/reference contact pair.

16. A biomedical sensor for sensing phenomena of a muscle, comprising:
- a fixed framework;
  
  an electrically insulating substrate rigidly coupled to the fixed framework;
  
  a plurality of conductive areas symmetrically arranged to be spaced along a length of the electrically insulating substrate and configured as signal detection contacts, each being associated with a proximate, distinct signal reference contact to form a plurality of signal detection/reference contact pairs spaced along the length, each one in the plurality of signal detection/reference contact pairs being aligned in a direction transversely to the length and in parallel with respect to each other so that each signal detection/reference contact pair produces movement induced artifacts in unison in response to relative movement between the plurality of signal detection/reference contact pairs and the muscle; and
  
  a differential sensing circuit coupled to the signal detection/reference contact pairs that provides an output that is an arithmetic difference between signals detected at the detection contacts measured with respect to the reference contacts, the reference contacts being directly electrically coupled together and to a reference input of the differential sensing circuit, and the detection contacts being provided at separate inputs to the differential sensing circuit, wherein each signal detection/reference contact pair is configured to react in response to the relative movement, wherein at least one common electrical component caused by the relative movement is cancelled out by the differential sensing circuit, and wherein the at least one common electrical component caused by the relative movement includes the movement induced artifacts that are suppressed by the differential sensing circuit.
- View Dependent Claims (17, 18, 19)
- - 17. The biomedical sensor as in claim 16, wherein the plurality of signal detection/reference contact pairs are spaced apart so that the signal detection contact is aligned to be on the same side of each pair.
  - 18. The biomedical sensor as in claim 16, wherein each of the conductive areas is formed in the shape of a conductive rod aligned in parallel on a plane of the substrate and projecting from the substrate.
  - 19. The biomedical sensor as in claim 16, wherein each of the conductive areas is formed in the shape of at least one of:
    - a disc attached to and coplanar with the substrate and a dome whose cross-sectional profile exhibits a concave curved shape attached to and projecting from the substrate.

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Current Assignee
Altec Incorporated
Original Assignee
Altec Incorporated
Inventors
Gilmore, L. Donald, De Luca, Gianluca, De Luca, Carlo J.
Primary Examiner(s)
Stoklosa, Joseph
Assistant Examiner(s)
ANTISKAY, BRIAN MICHAEL

Application Number

US12/583,656
Publication Number

US 20110028823A1
Time in Patent Office

2,472 Days
Field of Search

600/372, 600/382, 600/384, 600/393, 600/395, 123/72, 123/82, 123/84, 123/93, 123/95
US Class Current

1/1
CPC Class Codes

A61B 5/296   for electromyography [EMG]

A61B 5/389   Electromyography [EMG]

A61B 5/7214   using signal cancellation, ...

Biomedical electrode configuration for suppressing movement artifact

First Claim

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Abstract

15 Citations

20 Claims

Specification

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Biomedical electrode configuration for suppressing movement artifact

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

15 Citations

20 Claims

Specification

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Solutions

Use Cases

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