Low power inverted alterphasic stimulation in a cochlear implant

US 7,167,754 B1
Filed: 11/19/2004
Issued: 01/23/2007
Est. Priority Date: 12/17/2003
Status: Active Grant

First Claim

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1. A method for sequentially stimulating the cochlea of a subject comprising:

inserting an electrode array into the cochlea, the electrode array having a multiplicity of spaced-apart electrode contacts that are positioned spatially along the length of the cochlea;

stimulating a first electrode contact on the electrode array with a monophasic pulse having a first polarity;

stimulating a second electrode contact on the electrode array following stimulation of the first electrode contact with a monophasic pulse having a second polarity,wherein the second polarity is the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially near the first electrode contact, andwherein the second polarity is the same polarity or the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially far from the first electrode contact;

stimulating a third electrode contact on the electrode array following stimulation of the second electrode contact with a monophasic pulse having a third polarity,wherein the third polarity is the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially near the second electrode contact, andwherein the third polarity is the same polarity or the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially far from the second electrode contact;

continuing to stimulate electrode contacts on the electrode array following the above pattern until a desired number of electrode contacts have been stimulated;

repeating the above stimulation pattern for all of the electrode contacts on the electrode array that are stimulated by a first monophasic pulse of one polarity by stimulating that electrode contact with a second monophasic pulse of an opposite polarity, whereby a selected number of the electrode contacts on the electrode array are stimulated sequentially in accordance with an alterphasic inverting stimulation strategy; and

modulating the alterphasic inverting stimulation with sound information.

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Abstract

An alterphasic inverting stimulation strategy for use with a multichannel cochlear implant system consumes less power than similar strategies, yet provides better sound quality. The alterphasic inverting strategy is a strategy wherein stimulation pulses are strictly sequential, and wherein the timing and polarity of the channels is chosen such that positive and negative pulses are alternating in time in accordance with a defined pattern that staggers application of the pulses spatially across all the channels and inverts the polarity of pulses that are near each other either spatially or in time.

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12 Claims

1. A method for sequentially stimulating the cochlea of a subject comprising:
- inserting an electrode array into the cochlea, the electrode array having a multiplicity of spaced-apart electrode contacts that are positioned spatially along the length of the cochlea;
  
  stimulating a first electrode contact on the electrode array with a monophasic pulse having a first polarity;
  
  stimulating a second electrode contact on the electrode array following stimulation of the first electrode contact with a monophasic pulse having a second polarity,wherein the second polarity is the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially near the first electrode contact, andwherein the second polarity is the same polarity or the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially far from the first electrode contact;
  
  stimulating a third electrode contact on the electrode array following stimulation of the second electrode contact with a monophasic pulse having a third polarity,wherein the third polarity is the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially near the second electrode contact, andwherein the third polarity is the same polarity or the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially far from the second electrode contact;
  
  continuing to stimulate electrode contacts on the electrode array following the above pattern until a desired number of electrode contacts have been stimulated;
  
  repeating the above stimulation pattern for all of the electrode contacts on the electrode array that are stimulated by a first monophasic pulse of one polarity by stimulating that electrode contact with a second monophasic pulse of an opposite polarity, whereby a selected number of the electrode contacts on the electrode array are stimulated sequentially in accordance with an alterphasic inverting stimulation strategy; and
  
  modulating the alterphasic inverting stimulation with sound information.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1 wherein the electrode array has sixteen electrode contacts, designated as E1, E2, . . . E16, with electrode contact E1 being the most distal electrode contact, and electrode contact E16 being the most proximal electrode contact, and wherein the sequence of applying monophasic pulses to the sixteen electrode contacts, and the polarity of the first monophasic pulses of the alterphasic pulse comprises:
    - E1(−
      
      ), E8(+), E3(+), E10(−
      
      ), E5(−
      
      ), E12(+), E7(+), E14(−
      
      ), E9 (−
      
      ), E16(+), E2(−
      
      ), E11(+), E4(+), E13(−
      
      ), E6(−
      
      ), E15(+), . . . ;
      
      wherein the polarity symbol in parenthesis after each electrode contact indicates the polarity of the first pulse of the alterphasic pulse applied to that electrode contact, and wherein a time gap of T1 seconds is inserted between the two monophasic pulses of the alterphasic pulse.
  - 3. The method of claim 2 wherein the time gap of T1 seconds is 1 to 100 μ
    - s.
  - 4. The method of claim 1 wherein the alterphasic inverting stimulation strategy reduces power associated with operation of a cochlear implant system.
  - 5. The method of claim 1 wherein the alterphasic inverting stimulation strategy improves the ability of a user to perceive sound, as well as to improve the ability of the user to discern quality of sound.

6. In a multichannel cochlear stimulation system having an electrode array insertable into a human cochlea, and wherein the electrode array has a multiplicity of spaced-apart electrode contacts positioned at or near its distal end, a low power stimulation strategy for use within the cochlear stimulation system comprising:
- means for applying an alterphasic inverting stimulation strategy to at least a multiplicity of the multiplicity of electrode contacts on the electrode array, said alterphasic inverting stimulation comprises a multiplicity of cycles on a multiplicity of channels, wherein at least one cycle of the multiplicity of cycles includes alterphasic inverting monophasic pulses occurring within the multiplicity of channels; and
  
  means for modulating the stimulation pulses provided by the alterphasic inverting stimulation strategy with sound information.
- View Dependent Claims (11)
- - 11. The stimulation strategy of claim 6 wherein the at least one cycle includes a time gap of T1 seconds between two monophasic pulses, wherein T1 ranges from 1 to 100 μ
    - s.

7. In a multichannel cochlear stimulation system having an electrode array insertable into a human cochlea, and wherein the electrode array has a multiplicity of spaced-apart electrode contacts positioned at or near its distal end, a low power stimulation strategy for use within the cochlear stimulation system comprising:
- means for applying an alterphasic inverting stimulation strategy to at least a multiplicity of the multiplicity of electrode contacts on the electrode array; and
  
  means for modulating the stimulation pulses provided by the alterphasic inverting stimulation strategy with sound information;
  
  wherein the means for applying an alterphasic inverting stimulation strategy comprises;
  
  means for stimulating a first electrode contact on the electrode array with a monophasic pulse having a first polarity;
  
  means for stimulating a second electrode contact on the electrode array following stimulation of the first electrode contact with a monophasic pulse having a second polarity, wherein the second polarity is the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially near the first electrode contact, and wherein the second polarity is the same polarity or the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially far from the first electrode contact;
  
  means for stimulating a third electrode contact on the electrode array following stimulation of the second electrode contact with a monophasic pulse having a third polarity, wherein the third polarity is the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially near the second electrode contact, and wherein the third polarity is the same polarity or the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially far from the second electrode contact;
  
  means for continuing to stimulate electrode contacts on the electrode array following the above pattern until a desired number of electrode contacts have been stimulated; and
  
  means for repeating the above stimulation pattern for all of the electrode contacts on the electrode array that are stimulated by a first monophasic pulse of one polarity by stimulating that electrode contact with a second monophasic pulse of an opposite polarity, whereby a selected number of the electrode contacts on the electrode array are stimulated sequentially in accordance with the alterphasic inverting stimulation strategy.
- View Dependent Claims (8)
- - 8. The alterphasic inverting stimulation strategy of claim 7 further including means for inserting a time gap of T1 seconds between two monophasic pulses of the alterphasic pulse, wherein T1 ranges from 1 to 100 μ
    - s.

9. A method of providing a low power stimulation strategy for use within a cochlear stimulation system, said stimulation system including an electrode array insertable into a human cochlea, wherein the electrode array has a multiplicity of spaced-apart electrode contacts positioned at or near its distal end, the method comprising:
- applying an alterphasic inverting stimulation to at least a multiplicity of the multiplicity of electrode contacts on the electrode array, said alterphasic inverting stimulation comprises a multiplicity of cycles on a multiplicity of channels, wherein at least one cycle of the multiplicity of cycles includes alterphasic inverting monophasic pulses occurring within the multiplicity of channels; and
  
  modulating the stimulation pulses provided by the alterphasic inverting stimulation with sound information.
- View Dependent Claims (12)
- - 12. The method of claim 9 further including inserting a time gap of T1 seconds between two monophasic pulses for the at least one cycle, wherein T1 ranges from 1 to 100 μ
    - s.

10. A method of providing a low power stimulation strategy for use within a cochlear stimulation system, said stimulation system including an electrode array insertable into a human cochlea, wherein the electrode array has a multiplicity of spaced-apart electrode contacts positioned at or near its distal end, the method comprising:
- applying an alterphasic inverting stimulation to at least a multiplicity of the multiplicity of electrode contacts on the electrode array; and
  
  modulating the stimulation pulses provided by the alterphasic inverting stimulation with sound information;
  
  wherein applying the alterphasic inverting stimulation comprises;
  
  stimulating a first electrode contact on the electrode array with a monophasic pulse having a first polarity;
  
  stimulating a second electrode contact on the electrode array following stimulation of the first electrode contact with a monophasic pulse having a second polarity, wherein the second polarity is the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially near the first electrode contact, and wherein the second polarity is the same polarity or the opposite polarity of the pulse applied to the first electrode contact whenever the second electrode contact is spatially far from the first electrode contact;
  
  stimulating a third electrode contact on the electrode array following stimulation of the second electrode contact with a monophasic pulse having a third polarity, wherein the third polarity is the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially near the second electrode contact, and wherein the third polarity is the same polarity or the opposite polarity of the pulse applied to the second electrode contact whenever the third electrode contact is spatially far from the second electrode contact;
  
  continuing to stimulate electrode contacts on the electrode array following the above pattern until a desired number of electrode contacts have been stimulated; and
  
  repeating the above stimulation pattern for all of the electrode contacts on the electrode array that are stimulated by a first monophasic pulse of one polarity by stimulating that electrode contact with a second monophasic pulse of an opposite polarity, whereby a selected number of the electrode contacts on the electrode array are stimulated sequentially in accordance with the alterphasic inverting stimulation strategy.

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Current Assignee
Advanced Bionics AG (Sonova Holding AG)
Original Assignee
Advanced Bionics Corporation (Sonova Holding AG)
Inventors
Vanpoucke, Filiep, Peeters, Stefaan
Primary Examiner(s)
Pezzuto; Robert
Assistant Examiner(s)
JOHNSON, SHEVON ELIZABETH

Application Number

US10/993,991
Time in Patent Office

795 Days
Field of Search

607 55- 57, 607 70- 74
US Class Current

607/57
CPC Class Codes

A61N 1/36038 Cochlear stimulation

A61N 1/37247 User interfaces, e.g. input...

Low power inverted alterphasic stimulation in a cochlear implant

First Claim

5 Assignments

0 Petitions

Accused Products

Abstract

20 Citations

12 Claims

Specification

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Low power inverted alterphasic stimulation in a cochlear implant

First Claim

5 Assignments

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0 Petitions

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Accused Products

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Abstract

20 Citations

12 Claims

Specification

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Solutions

Use Cases

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