Diaphragm electromyography analysis method and system

US 5,671,752 A
Filed: 03/31/1995
Issued: 09/30/1997
Est. Priority Date: 03/31/1995
Status: Expired due to Term

First Claim

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1. A method for producing an electromyographic signal having an improved signal-to-noise ratio and related to a striated muscle defining a muscle depolarizing region with a center, comprising the steps of:

detecting electromyographic signals produced by the muscle by means of an array of electrodes passing through the center of the muscle depolarizing region, each electrode-detected electromyographic signal comprising an electromyographic component and a noise component;

detecting the position of the center of the muscle depolarizing region by detecting a reversal of polarity of the electromyograhic component of the electrode-detected electromyograhic signals; and

subtracting a first electromyograhic signal detected by the electrodes of the array on a first side of the center of the muscle depolarization region, from a second electromyograhic signal detected by the electrodes of the array on a second side, opposite to said first side, of the center of the muscle depolarization region, wherein (a) the first electromyograhic signal has an electromyograhic component of a first polarity, (b) the second electromyograhic signal has an electromyograhic component of a second polarity opposite to said first polarity, (c) the subtraction subtracts the noise components of the first and second electromyograhic signals from each other but adds the respective electromyograhic components of said first and second electromyograhic signals together to produce said electromyograhic signal of improved signal-to-noise ratio.

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Abstract

In the method and system for electromyographic analysis of a striated muscle, electromyographic signals produced by the muscle are detected by means of an array of electrodes passing through the center of the muscle depolarizing region. Each electromyographic signal comprises an electromyographic component and a noise component. The position of the center of the muscle depolarizing region is then determined by detecting a reversal of polarity of the electromyographic components of the signals. Finally, two signals of opposite polarities amongst the electromyographic signals are subtracted. The subtraction subtracts the noise components of the two signals from each other but adds the electromyographic components of the two signals together to produce an electromyographic signal of improved signal-to-noise ratio. Advantageously, the array of electrodes is a linear array of successive electrodes, the center of the muscle depolarizing region is located between the electrodes of a given pair of successive electrodes, and the two signals of opposite polarities detected through the two pairs of successive electrodes adjacent to the given pair on opposite sides thereof are subtracted.

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11 Claims

1. A method for producing an electromyographic signal having an improved signal-to-noise ratio and related to a striated muscle defining a muscle depolarizing region with a center, comprising the steps of:
- detecting electromyographic signals produced by the muscle by means of an array of electrodes passing through the center of the muscle depolarizing region, each electrode-detected electromyographic signal comprising an electromyographic component and a noise component;
  
  detecting the position of the center of the muscle depolarizing region by detecting a reversal of polarity of the electromyograhic component of the electrode-detected electromyograhic signals; and
  
  subtracting a first electromyograhic signal detected by the electrodes of the array on a first side of the center of the muscle depolarization region, from a second electromyograhic signal detected by the electrodes of the array on a second side, opposite to said first side, of the center of the muscle depolarization region, wherein (a) the first electromyograhic signal has an electromyograhic component of a first polarity, (b) the second electromyograhic signal has an electromyograhic component of a second polarity opposite to said first polarity, (c) the subtraction subtracts the noise components of the first and second electromyograhic signals from each other but adds the respective electromyograhic components of said first and second electromyograhic signals together to produce said electromyograhic signal of improved signal-to-noise ratio.
- View Dependent Claims (2, 5, 6, 7)
- - 2. A method for producing an electromyograhic signal having an improved signal-to-noise ratio as recited in claim 1, wherein said array of electrodes is a linear array of electrodes and defines a plurality of pairs of successive electrodes, wherein the center of the muscle depolarizing region is located between the electrodes of a given one of said pairs of successive electrodes, wherein said first electromyograhic signal is detected through the pair of successive electrodes adjacent to said given pair on one side of said given pair, and wherein said second electromyographic signal is detected through the pair of successive electrodes adjacent to said given pair on the other side of said given pair.
  - 5. A method for producing an electromyograhic signal having an improved signal-to-noise ratio as recited in claim 1, wherein said center position detecting step comprises conducting a cross-correlation on said electrode-detected electromyograhic signals.
  - 6. A method for producing an electromyograhic signal having an improved signal-to-noise ratio as recited in claim 1, wherein said subtracting step is a time domain subtracting step.
  - 7. A method for producing an electromyograhic signal having an improved signal-to-noise ratio as recited in claim 1, wherein said subtracting step comprises the step of converting said first and second electromyograhic signals in the frequency domain before carrying out the said substraction.

3. A system for producing an electromyographic signal having an improved signal-to-noise ratio and related to a striated muscle defining a muscle depolarizing region with a center, comprising:
- an array of electrodes passing through the center of the muscle depolarizing region for detecting electromyographic signals produced by the muscle, each electrode-detected electromyographic signal comprising an electromyograhic component and a noise component;
  
  means for detecting the position of the center of the muscle depolarizing region through a detection of a reversal of polarity of the electromyograhic component of said electrode-detected electromyograhic signals; and
  
  means for subtracting a first electromyograhic signal detected by the electrodes of the array on a first side of the center of the muscle depolarization region, from a second electromyograhic signal detected by the electrodes of the array on a second side, opposite to said first side, of the center of the muscle depolarization region, wherein (a) the first electromyograhic signal has an electromyograhic component of a first polarity, (b) the second electromyograhic signal has an electromyograhic component of a second polarity opposite to said first polarity, and (c) the subtraction subtracts the noise components of the first and second electromyograhic signals from each other but adds the respective electromyograhic components of said first and second electromyograhic signals together to produce said electromyograhic signal of improved signal-to-noise ratio.
- View Dependent Claims (4, 8, 9, 10, 11)
- - 4. A system for producing an electromyograhic signal having an improved signal-to-noise ratio as recited in claim 3, wherein said array of electrodes is a linear array of electrodes and defines a plurality of pairs of successive electrodes, wherein the center of the muscle depolarizing region is located between the electrodes of a given one of said pairs of successive electrodes, wherein said first electromyograhic signal is detected through the pair of successive electrodes adjacent to said given pair on one side of said given pair, and wherein said second electromyograhic signal is detected through the pair of successive electrodes adjacent to said given pair on the other side of said given pair.
  - 8. A system for producing an electromyograhic signal having an improved signal-to-noise ratio as recited in claim 3, wherein said center position detecting means comprises means for conducting a cross-correlation on said electrode-detected electromyographic signals.
  - 9. A system for producing an electromyographic signal having an improved signal-to-noise ratio as recited in claim 3, wherein said subtracting means is a time domain subtracting means.
  - 10. A system for producing an electromyographic signal having an improved signal-to-noise ratio as recited in claim 3, wherein said subtracting means comprises means for converting said first and second electromyographic signals in the frequency domain before carrying out the said substraction.
  - 11. A system for producing an electromyographic signal having an improved signal-to-noise ratio as recited in claim 3, wherein said array of electrodes is mounted on a free end section of a catheter, and wherein each of said electrodes comprises a metallic wire wound around the catheter, said wound metallic wire presenting a rough surface first smoothed by solder, and then electroplated.

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Current Assignee
Hewlett-Packard Company (HP Inc.), Royal Institution For The Advancement of Learning (McGill University), Universite De Montreal, L'
Original Assignee
Universite de Montreal/The Royal Insitution For The Advancement of Learning
Inventors
Friberg, Sven, Sinderby, Christer, Lindstrom, Lars, Grassino, Alejandro
Primary Examiner(s)
Rimell, Sam
Assistant Examiner(s)
WINGOOD, PAMELA LYNN

Application Number

US08/414,494
Time in Patent Office

914 Days
Field of Search

128/733, 128/777, 128/774, 128/780
US Class Current

600/546
CPC Class Codes

A61B 5/296   for electromyography [EMG]

A61B 5/392   Detecting gastrointestinal ...

A61B 5/7214   using signal cancellation, ...

A61M 2210/1014   Diaphragm

A61M 2230/005   Parameter used as control i...

A61M 2230/08   Other bio-electrical signals

A61M 2230/60   Muscle strain, i.e. measure...

Diaphragm electromyography analysis method and system

First Claim

3 Assignments

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Abstract

319 Citations

11 Claims

Specification

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Diaphragm electromyography analysis method and system

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

319 Citations

11 Claims

Specification

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Solutions

Use Cases

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