Channel interaction cancellation within a multichannel neural stimulation system

US 7,110,821 B1
Filed: 07/10/2002
Issued: 09/19/2006
Est. Priority Date: 07/10/2002
Status: Active Grant

First Claim

Patent Images

1. A method for minimizing channel interaction in a multichannel neural stimulator system, said multichannel neural stimulation system having a multiplicity of electrodes adapted to interface with body tissue or nerves, and means for simultaneously applying a stimulus waveform of a desired intensity to selected ones of the multiplicity of electrodes, the method comprising:

(a) applying a stimulus waveform of a known intensity to one of the multiplicity of electrodes; and

(b) measuring an interaction waveform appearing at any of the other of the multiplicity of electrodes as a result of the stimulus waveform applied in step (a);

(c) repeating steps (a) and (b) for each of the multiplicity of electrodes;

(d) creating a channel interaction matrix, [CIM], that defines the interaction waveforms measured in step (b) as a result of the stimulus waveforms, applied in step (a);

(e) determining the inverse of the channel interaction matrix, [CIM]^−

1, created in step (d); and

thereafter(f) using the inverse of the channel interaction matrix, [CIM]^−

1, and a desired stimulation waveform matrix, [I_D], to determine the actual stimulation waveforms [I_R] that must be applied in order to produce, after channel interaction, the desired stimulation waveforms.

View all claims

5 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A way of reducing channel interaction is provided in a multichannel neural implant that has the ability to stimulate multiple tissue or nerve sites simultaneously. Channel interaction is minimized through measuring or estimating what the channel interaction is or will likely be, and then using that measured or estimated channel interaction to adjust the intensity of the applied stimuli so that, with the channel interaction, the actual stimuli applied to the tissue or nerves is of a desired intensity level. In one embodiment, the measured or estimated channel interaction is collected or compiled and saved as a channel interaction matrix. The channel interaction matrix is created during a fitting procedure by stimulating one channel at a time while measuring the effects of the stimulation on the neighboring channels. The superposition principal is used, as needed, to determine all the terms of the channel interaction matrix. The channel interaction matrix, once obtained, provides all of the information needed to eliminate or minimize channel interaction.

58 Citations

View as Search Results

10 Claims

1. A method for minimizing channel interaction in a multichannel neural stimulator system, said multichannel neural stimulation system having a multiplicity of electrodes adapted to interface with body tissue or nerves, and means for simultaneously applying a stimulus waveform of a desired intensity to selected ones of the multiplicity of electrodes, the method comprising:
- (a) applying a stimulus waveform of a known intensity to one of the multiplicity of electrodes; and
  
  (b) measuring an interaction waveform appearing at any of the other of the multiplicity of electrodes as a result of the stimulus waveform applied in step (a);
  
  (c) repeating steps (a) and (b) for each of the multiplicity of electrodes;
  
  (d) creating a channel interaction matrix, [CIM], that defines the interaction waveforms measured in step (b) as a result of the stimulus waveforms, applied in step (a);
  
  (e) determining the inverse of the channel interaction matrix, [CIM]^−
  
  1, created in step (d); and
  
  thereafter(f) using the inverse of the channel interaction matrix, [CIM]^−
  
  1, and a desired stimulation waveform matrix, [I_D], to determine the actual stimulation waveforms [I_R] that must be applied in order to produce, after channel interaction, the desired stimulation waveforms.
- View Dependent Claims (2, 3)
- - 2. The method of claim 1 wherein step (f) comprisesdetermining the voltage [V] resulting from application of the desired stimulation waveforms, [I_D], using the diagonal terms of the channel interaction matrix, [CIM_D], as:
    - [V]=[CIM_D]×
      
      [I_D]; and
      
      determining the required stimulation waveforms [I_R] needed to produce the voltage [V] in the presence of channel interaction as;
      
      [I_R]=[CIM]^−
      
      1×
      
      [V].
  - 3. The method of claim 1 wherein step (f) comprises determining the required stimulation waveforms [I_R] needed to produce the desired stimulation waveforms, [I_D], in the presence of channel interaction as:
    - [I_R]=[CIM]^−
      
      1×
      
      {[CIM_D]×
      
      [I_D]}.

4. A method of reducing channel interaction in a multichannel neural implant having the ability to stimulate multiple tissue or nerve sites simultaneously, comprising:
- stimulating one channel at a time;
  
  measuring the effects of the stimulation on neighboring channels;
  
  estimating what the channel interaction will likely be responsive to said measuring step, andusing the estimated channel interaction to adjust the intensity of the applied stimuli so that, with the channel interaction, the actual stimuli applied to the tissue or nerves is of a desired intensity level.
- View Dependent Claims (5, 6)
- - 5. The method of claim 4 further comprising building a channel interaction matrix that defines the effects of the stimulation on neighboring channels when stimulation is applied to one channel at a time.
  - 6. The method of claim 5 wherein using the estimated channel interaction to adjust the intensity of the applied stimuli comprises determining the inverse of the channel interaction matrix and multiplying the inverse of the channel interaction matrix by the desired stimulation to determine the adjusted intensity of the applied stimuli.

7. A multichannel neural stimulation system comprising:
- a multiplicity of electrodes adapted to interface with body tissue or nerves;
  
  means for simultaneously applying a stimulus waveform of a desired intensity to selected ones of the multiplicity of electrodes;
  
  means for creating a channel interaction matrix [CIM] that defines inter-electrode interaction resulting when a stimulus waveform is applied to one electrode and causes a stimulus waveform to appear on non-stimulated electrodes;
  
  means for determining the inverse of the channel interaction matrix, [CIM]^−
  
  1;
  
  means for using the inverse of the channel interaction matrix, [CIM]^−
  
  1, and a desired stimulation waveform matrix, [I_D], to determine the actual stimulation waveforms [I_R] that must be applied in order to produce, after channel interaction, the desired stimulation waveforms.
- View Dependent Claims (8, 9, 10)
- - 8. The multichannel neural stimulation system of claim 7 wherein the means for determining the channel interaction matrix [CIM] comprisesmeans for applying a stimulus waveform of a known intensity to each of the multiplicity of electrodes, in turn;
    - andmeans for measuring an interaction waveform appearing at any of the other of the multiplicity of electrodes as a result of the applied stimulus waveform to one of the multiplicity of electrodes.
  - 9. The multichannel neural stimulation system of claim 8 wherein the means for using the inverse of the channel interaction matrix, [CIM]⁻
    - 1, and a desired stimulation waveform matrix, [I_D], to determine the actual stimulation waveforms [I_R] that must be applied in order to produce, after channel interaction, the desired stimulation waveforms comprises;
      
      means for determining the voltage [V] resulting from application of the desired stimulation waveforms, [I_D], using the diagonal terms of the channel interaction matrix, [CIM_D], as;
      
      [V]=[CIM_D]×
      
      [I_D]; and
      
      means for determining the required stimulation waveforms [I_R] needed to produce the voltage [V] in the presence of channel interaction as;
      
      [I_R]=[CIM]^−
      
      1×
      
      [V].
  - 10. The multichannel neural stimulation system of claim 8 wherein the means for using the inverse of the channel interaction matrix, [CIM]⁻
    - 1, and a desired stimulation waveform matrix, [I_D] to determine the actual stimulation waveforms [I_R] that must be applied in order to produce, after channel interaction, the desired stimulation waveforms comprises means for determining the required stimulation waveforms [I_R] needed to produce the desired stimulation waveforms, [I_D], in the presence of channel interaction as;
      
      [I_R]=[CIM]^−
      
      1×
      
      {[CIM_D]×
      
      [I_D]}where [CIM_D] comprises a matrix made up of the diagonal terms of the channel interaction matrix [CIM].

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Advanced Bionics AG (Sonova Holding AG)
Original Assignee
Advanced Bionics Corporation (Sonova Holding AG)
Inventors
Ross, Richard C.
Primary Examiner(s)
Schaetzle, Kennedy

Application Number

US10/192,987
Time in Patent Office

1,532 Days
Field of Search

607/2, 607 53- 57, 607 39- 41, 607/46, 607/68, 607/8, 607/62, 600/554, 600/559, 128/901
US Class Current

607/57
CPC Class Codes

A61N 1/36038 Cochlear stimulation

A61N 1/36039 fitting procedures

Channel interaction cancellation within a multichannel neural stimulation system

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

58 Citations

10 Claims

Specification

Use Cases

Quick Links

Others

Channel interaction cancellation within a multichannel neural stimulation system

First Claim

5 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

58 Citations

10 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others