Implantable microstimulator having a battery unit and methods of use therefor

US 8,060,215 B2
Filed: 07/07/2010
Issued: 11/15/2011
Est. Priority Date: 02/11/2005
Status: Active Grant

First Claim

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1. An implantable microstimulator arrangement, comprising:

a plurality of implantable microstimulator units, each of the plurality of microstimulator units individually comprisinga first housing,at least one electrode disposed on, or as part of, the first housing, andan electronic subassembly disposed in the first implantable housing and coupled to the at least one electrode, the electronic subassembly configured and arranged to generate electrical pulses at the at least one electrode to stimulate tissue adjacent to the microstimulator unit when implanted, the electronic subassembly comprising a processor configured and arranged to control timing and electrical characteristics of the generated electrical pulses;

an implantable battery unit comprisinga second housing, anda power source disposed in the second housing, wherein the power source is configured and arranged to provide power for operation of the processor in each of the plurality of implantable microstimulator units and to provide power for the electrical pulses generated at the at least one electrode of each of the plurality of microstimulator units,wherein the implantable battery unit is separate from the plurality of implantable microstimulator units;

a plurality of leads coupling the plurality of microstimulator units to the battery unit to provide the power from the power source in the battery unit to each of the microstimulator units; and

at least one lead connector, separate from the implantable battery unit and the plurality of microstimulator units, disposed between the implantable battery unit and at least one of the implantable microstimulator units and configured and arranged to receive and electrically couple at least two of the plurality of leads to allow electrical signals from one lead to be to be transmitted to another lead.

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Abstract

An implantable microstimulator arrangement includes at least one implantable microstimulator unit; an implantable battery unit separate from the implantable microstimulator unit(s); and at least one lead coupling the microstimulator unit(s) to the battery unit. The microstimulator unit(s) are operated to treat body tissue.

59 Citations

19 Claims

1. An implantable microstimulator arrangement, comprising:
- a plurality of implantable microstimulator units, each of the plurality of microstimulator units individually comprisinga first housing,at least one electrode disposed on, or as part of, the first housing, andan electronic subassembly disposed in the first implantable housing and coupled to the at least one electrode, the electronic subassembly configured and arranged to generate electrical pulses at the at least one electrode to stimulate tissue adjacent to the microstimulator unit when implanted, the electronic subassembly comprising a processor configured and arranged to control timing and electrical characteristics of the generated electrical pulses;
  
  an implantable battery unit comprisinga second housing, anda power source disposed in the second housing, wherein the power source is configured and arranged to provide power for operation of the processor in each of the plurality of implantable microstimulator units and to provide power for the electrical pulses generated at the at least one electrode of each of the plurality of microstimulator units,wherein the implantable battery unit is separate from the plurality of implantable microstimulator units;
  
  a plurality of leads coupling the plurality of microstimulator units to the battery unit to provide the power from the power source in the battery unit to each of the microstimulator units; and
  
  at least one lead connector, separate from the implantable battery unit and the plurality of microstimulator units, disposed between the implantable battery unit and at least one of the implantable microstimulator units and configured and arranged to receive and electrically couple at least two of the plurality of leads to allow electrical signals from one lead to be to be transmitted to another lead.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The implantable microstimulator arrangement of claim 1, wherein the implantable battery unit further comprises an antenna.
  - 3. The implantable microstimulator arrangement of claim 2, wherein the processor is coupled to a receiver in communication with the antenna.
  - 4. The implantable microstimulator arrangement of claim 1, wherein the implantable microstimulator arrangement comprises at least three implantable microstimulator units, wherein each microstimulator unit is configured and arranged to stimulate the tissue adjacent that microstimulator unit using the electrical pulses generated by the electronic subassembly of that microstimulator unit.
  - 5. The implantable microstimulator arrangement of claim 1, wherein the implantable microstimulator arrangement comprises a plurality of the lead connectors separate from the implantable battery unit and the plurality of microstimulator units, wherein each lead connector is configured and arranged to receive and electrically couple at least two of the plurality of leads to allow electrical signals from one lead to be transmitted to another lead.
  - 6. The implantable microstimulator arrangement of claim 1, wherein a one of the plurality of implantable microstimulator units further comprises an antenna disposed in the first housing.
  - 7. The implantable microstimulator arrangement of claim 1, wherein a one of the plurality of leads is removably coupled to the battery unit.
  - 8. The implantable microstimulator arrangement of claim 1, wherein a one of the plurality of leads is removably coupled to a one of the plurality of microstimulator units.
  - 9. The implantable microstimulator arrangement of claim 1, wherein the plurality of leads comprises at least three leads and wherein the at least one lead connector is configured and arranged to receive and electrically couple the at least three leads to allow electrical signals from one lead to be transmitted to another lead.
  - 10. The implantable microstimulator arrangement of claim 1, wherein the processor is configured to produce a signal to begin charging the battery.
  - 11. The implantable microstimulator arrangement of claim 1, wherein the implantable microstimulator arrangement comprises a plurality of battery units, wherein each of the battery units is coupled to a remainder of the microstimulator arrangement using a different one of the plurality of leads.
  - 12. The implantable microstimulator arrangement of claim 1, wherein the battery unit comprises an indifferent electrode.
  - 13. The implantable microstimulator arrangement of claim 1, wherein at least one of the lead connectors comprises an indifferent electrode.
  - 14. The implantable microstimulator arrangement of claim 1, wherein at least one of the lead connectors is configured and arranged to connect to at least three leads.
  - 15. The implantable microstimulator arrangement of claim 1, wherein each of the lead connectors is configured and arranged to connect to at least three leads.
  - 16. The implantable microstimulator arrangement of claim 1, wherein the first housing of each of the microstimulator units has a cylindrical shape and a diameter of up to 8 mm.

17. An implantable microstimulator arrangement, comprising:
- at least one implantable battery unit comprisinga first housing, anda power source disposed in the first housing;
  
  a plurality of implantable microstimulator units, wherein each implantable microstimulator unit comprisesa second housing,at least one electrode disposed on, or as part of, the second housing, andan electronic subassembly disposed in the second housing and coupled to the at least one electrode, the electronic subassembly configured and arranged to generate electrical pulses at the at least one electrode to stimulate tissue adjacent the microstimulator unit when implanted, the electronic subassembly comprising a processor configured and arranged to control timing and electrical characteristics of the generated electrical pulses, wherein the power source of the at least one implantable battery unit is configured and arranged to provide power for operation of the processor in each of the plurality of implantable microstimulator units and to provide power for the electrical pulses generated at the at least one electrode of each of the plurality of microstimulator units;
  
  a plurality of lead connectors separate from the implantable battery unit and the plurality of microstimulator units, wherein each lead connector is configured and arranged to receive and electrically couple at least three leads to allow electrical signals from one lead to be transmitted to another lead; and
  
  a plurality of leads that couple the microstimulator units to the at least one battery unit using the lead connectors to provide power from the power source in the battery unit to each of the microstimulator units;
  
  wherein the at least one implantable battery unit is separate from the plurality of implantable microstimulator units.

18. A method of treating body tissue, the method comprising:
- implanting a plurality of microstimulator units into a body in the proximity of the body tissue to be treated, each microstimulator unit comprising a first housing, at least one electrode disposed on, or as part of, the first housing, and an electronic subassembly disposed in the first housing and coupled to the at least one electrode, the electronic subassembly configured and arranged to generate electrical pulses at the at least one electrode to stimulate the body tissue, the electronic subassembly comprising a processor configured and arranged to control timing and electrical characteristics of the generated electrical pulses;
  
  implanting a separate battery unit into the body, the battery unit comprising a second implantable housing and a power source disposed in the second implantable housing, wherein the power source of the at least one implantable battery unit is configured and arranged to provide power for operation of the processor in each of the plurality of implantable microstimulator units and to provide power for the electrical pulses generated at the at least one electrode of each of the plurality of microstimulator units;
  
  coupling the battery unit to the microstimulator units using a plurality of leads and at least one lead connector to provide power from the power source in the battery unit to each of the microstimulator units, wherein the at least one lead connector is disposed between the implantable battery unit and at least one of the implantable microstimulator units and configured and arranged to receive and electrically couple at least two of the plurality of leads to allow electrical signals from one lead to be to be transmitted to another lead; and
  
  operating the microstimulator units to treat the body tissue.
- View Dependent Claims (19)
- - 19. The method of claim 18, further comprising replacing the battery unit without removing the microstimulator units.

Specification

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Current Assignee
Boston Scientific Neuromodulation Corporation (Boston Scientific Corporation)
Original Assignee
Boston Scientific Neuromodulation Corporation (Boston Scientific Corporation)
Inventors
He, Tom Xiaohai
Primary Examiner(s)
Layno; Carl H
Assistant Examiner(s)
MALAMUD, DEBORAH LESLIE

Application Number

US12/831,629
Publication Number

US 20100274325A1
Time in Patent Office

496 Days
Field of Search

607 55- 57, 607/61, 607/116, 607/118, 607 1- 2
US Class Current

607/61
CPC Class Codes

A61N 1/05   for implantation or inserti...

A61N 1/32   alternating or intermittent...

A61N 1/37205   Microstimulators, e.g. impl...

A61N 1/378   Electrical supply

Implantable microstimulator having a battery unit and methods of use therefor

First Claim

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Abstract

59 Citations

19 Claims

Specification

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Implantable microstimulator having a battery unit and methods of use therefor

First Claim

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0 Petitions

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Accused Products

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Abstract

59 Citations

19 Claims

Specification

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Solutions

Use Cases

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