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Multichannel implantable cochlear stimulator

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • A61N-001/36
  • A61F-002/18
  • H04R-025/00
출원번호 US-0103264 (1998-06-23)
발명자 / 주소
  • Schulman Joseph H.
  • Gord John C.
  • Strojnik Primoz
  • Whitmoyer David I.
  • Wolfe James H.
출원인 / 주소
  • Alfred E. Mann Foundation
대리인 / 주소
    Alfred E. Mann Foundation
인용정보 피인용 횟수 : 91  인용 특허 : 3

초록

A cochlea stimulation system includes a patient wearable system comprising an externally wearable signal processor (WP) and a headpiece in electronic communication with an implanted cochlear stimulator (ICS). The ICS comprises eight output stages each having two electrically isolated capacitor-coupl

대표청구항

[ We claim:] [1.] A cochlea stimulation system, comprising:audio signal receiving means, including a headpiece coupled to a signal and energy coupling means, the headpiece having transmitting and receiving means and means for transferring data through the signal and energy coupling means at one freq

이 특허에 인용된 특허 (3)

  1. Crosby Peter A. (Drummoyne AUX) Daly Christopher N. (Biglola Plateau AUX) Money David K. (Pennant Hills AUX) Patrick James F. (Lane Cove AUX) Seligman Peter M. (Essendon AUX) Kuzma Janusz A. (Stanmor, Cochlear implant system for an auditory prosthesis.
  2. Galbraith Douglas C. (Stanford CA), Multi-channel implantable neural stimulator.
  3. McDermott Hugh J. (Kilda AUX), Receiver/stimulator for hearing prosthesis.

이 특허를 인용한 특허 (91)

  1. Kals, Mathias, Accelerated fitting of cochlear implants based on current spread.
  2. Segel,Philip A; Kruger,Tracey L, Adaptive place-pitch ranking procedure for optimizing performance of a multi-channel neural stimulator.
  3. Kulkarni, Abhijit; Mishra, Lakshimi Narayan; Faltys, Michael A., Auditory front end customization.
  4. Kulkarni, Abhijit; Mishra, Lakshimi Narayan; Faltys, Michael A., Auditory front end customization.
  5. Faltys, Michael A.; Kulkarni, Abhijit; Crawford, Scott A., Beamforming microphone system.
  6. Faltys, Michael A.; Kulkarni, Abhijit; Crawford, Scott A., Beamforming microphone system.
  7. Aschbacher, Ernst; Schleich, Peter, Carrier and envelope triggered cochlear stimulation.
  8. Schleich, Peter, Channel specific gain control including lateral suppression.
  9. Haller, Matthew I.; Overstreet, Edward H., Cochlear electrode insertion.
  10. Overstreet,Edward H.; Faltys,Michael A., Cochlear implant and simplified method of fitting same.
  11. Spitzer, Philipp; Feichtner, Florian, Cochlear implant stimulation artifacts.
  12. Schleich, Peter; Meister, Dirk; Nopp, Peter, Cochlear implant stimulation with low frequency channel privilege.
  13. Schleich, Peter; Meister, Dirk; Nopp, Peter, Cochlear implant stimulation with low frequency channel privilege.
  14. Davis, Timothy J.; Perz, Leroy L.; Torgerson, Nathan A.; Wahlstrand, Carl D.; Hoffman, David W., Concurrent delivery of treatment therapy with telemetry in an implantable medical device.
  15. Ginggen, Alec; Crivelli, Rocco, Dual power supply switching circuitry for use in a closed system.
  16. Palmer, Logan P, Dual-range compliance voltage supply for a multi-channel stimulator.
  17. Palmer, Logan P., Dual-range compliance voltage supply for a multi-channel stimulator.
  18. Palmer, Logan P., Dual-range compliance voltage supply for a multi-channel stimulator.
  19. Faltys, Michael A.; Segel, Philip A.; Overstreet, Edward H.; Harrison, William Vanbrooks, Electric and acoustic stimulation fitting systems and methods.
  20. Faltys, Michael A.; Segel, Philip A.; Overstreet, Edward H.; Harrison, William Vanbrooks, Electric and acoustic stimulation fitting systems and methods.
  21. Faltys, Michael A.; Segel, Philip A.; Overstreet, Edward H.; Harrison, William Vanbrooks, Electric and acoustic stimulation fitting systems and methods.
  22. Zierhofer, Clemens M., Electrical nerve stimulation based on channel specific sampling sequences.
  23. Zierhofer, Clemens M., Electrical nerve stimulation based on channel specific sampling sequences.
  24. Zierhofer, Clemens M., Electrical nerve stimulation based on channel specific sampling sequences.
  25. Zierhofer,Clemens M., Electrical nerve stimulation based on channel specific sampling sequences.
  26. Risi, Frank, Electrode assembly for a stimulating medical device.
  27. Waldmann,Bernd, Electrophysiological measurement method and system for positioning an implantable, hearing instrument transducer.
  28. Litvak, Leonid Michael, Encoding fine time structure in presence of substantial interaction across an electrode array.
  29. Litvak,Leonid Michael; Mishra,Lakshmi Narayan, Encoding fine time structure in presence of substantial interaction across an electrode array.
  30. Overstreet,Edward H., Enhanced methods for determining iso-loudness contours for fitting cochlear implant sound processors.
  31. Mishra,Lakshmi Narayan; Faltys,Michael A., Estimating flap thickness for cochlear implants.
  32. Litvak,Leonid M; Overstreet,Edward H, Forward masking method for estimating neural response.
  33. Miller,Douglas Alan; Miller, III,Scott Allan, Frequency response equalization system for hearing aid microphones.
  34. Mishra, Lakshmi N., Fully implantable cochlear implant systems including optional external components and methods for using the same.
  35. Mishra, Lakshmi N., Fully implantable cochlear implant systems including optional external components and methods for using the same.
  36. Meacham, Dan, High voltage bootstrap sampling circuit.
  37. Meskens, Werner; Van den Heuvel, Koen, Identifying hearing prosthesis actuator resonance peak(s).
  38. Waldmann, Bernd, Implantable hearing aid actuator positioning.
  39. Zierhofer, Clemens; Hochmair, Ingeborg, Implanted system with DC free inputs and outputs.
  40. Faltys, Michael A.; Starkweather, Timothy J.; Arnold, Anthony K., Information processing and storage in a cochlear stimulation system.
  41. Faltys, Michael A.; Starkweather, Timothy J.; Arnold, Anthony K., Information processing and storage in a cochlear stimulation system.
  42. Santini, Jr., John T.; Herman, Stephen J., Medical device for sensing glucose.
  43. Miller, Douglas Alan, Method and apparatus for audio input to implantable hearing aids.
  44. Van Den Honert, Chris; Von Wallenberg, Ernst Ludwig; Diller, Norbert; Lal, Wai Kong; Nicolai, Jochen; Stecker, Mathias; Laszig, Roland; Mueller-Delle, Joachim; Cafarelli-Dees, Denise, Method and apparatus for optimizing the operation of a cochlear implant prosthesis.
  45. Van Den Honert, Chris; Von Wallenberg, Ernst Ludwig; Dillier, Norbert; Lai, Wai Kong; Nicolai, Jochen; Stecker, Mathias; Mueller-Delle, Joachim; Cafarelli Dees, Denise; Laszig, Roland, Method and apparatus for optimizing the operation of a cochlear implant prosthesis.
  46. Miller, Douglas Alan; Miller, III, Scott Allan, Method and system for external assessment of hearing aids that include implanted actuators.
  47. Miller,Douglas Alan; Miller, III,Scott Allan, Method and system for external assessment of hearing aids that include implanted actuators.
  48. Overstreet,Edward H., Method and system for generating a cochlear implant program using multi-electrode stimulation to elicit the electrically-evoked compound action potential.
  49. Overstreet,Edward H, Method and system for obtaining stapedial reflexes in cochlear implant users using multiband stimuli.
  50. Miller, Douglas Alan; Miller, III, Scott Allan, Method and system for positioning implanted hearing aid actuators.
  51. Litvak,Leonid M.; Krubsack,David A.; Overstreet,Edward H., Method and system to convey the within-channel fine structure with a cochlear implant.
  52. Litvak,Leonid M; Overstreet,Edward H, Method of measuring neural responses.
  53. Litvak,Leonid M, Method of using non-simultaneous stimulation to represent the within-channel fine structure.
  54. Overstreet, Edward H.; Faltys, Michael A.; Xie, Jian; Colvin, Michael S., Minimizing trauma during and after insertion of a cochlear lead.
  55. Overstreet, Edward H.; Xie, Jian; Colvin, Michael S.; Faltys, Michael A., Modular drug delivery system for minimizing trauma during and after insertion of a cochlear lead.
  56. DelMain, Gregory Jay; Gord, John C.; DeRocco, Paul, Multi-mode crystal oscillator system selectively configurable to minimize power consumption or noise generation.
  57. Zierhofer, Clemens M., Multichannel cochlear implant with neural response telemetry.
  58. Zierhofer,Clemens M., Multichannel cochlear implant with neural response telemetry.
  59. Nicolai, Jochen; von Wallenberg, Ernst, Multimodal auditory fitting.
  60. Nicolai, Jochen; von Wallenberg, Ernst, Multimodal auditory fitting.
  61. Bräcker, Timo; Schleich, Peter, Musical fitting of cochlear implants.
  62. Litvak, Leonid M.; Mishra, Lakshmi N., Optimizing pitch allocation in a cochlear implant.
  63. Litvak, Leonid M.; Mishra, Lakshmi N., Optimizing pitch allocation in a cochlear implant.
  64. Litvak, Leonid M.; Mishra, Lakshmi N., Optimizing pitch allocation in a cochlear implant.
  65. Fridman, Gene Y.; Litvak, Leonid M., Optimizing pitch allocation in a cochlear stimulation system.
  66. Fridman, Gene Y.; Litvak, Leonid M., Optimizing pitch allocation in a cochlear stimulation system.
  67. Overstreet, Edward H; Litvak, Leonid M; Harrison, William Vanbrooks, Optimizing pitch and other speech stimuli allocation in a cochlear implant.
  68. Overstreet,Edward H; Litvak,Leonid M; Harrison,William Vanbrooks, Optimizing pitch and other speech stimuli allocation in a cochlear implant.
  69. Meister, Dirk, Phase triggered envelope sampler.
  70. Hou, Zezhang, Power management for hearing aid device.
  71. Ginggen, Alec; Crivelli, Rocco, Power regulation feedback to optimize robustness of wireless transmissions.
  72. Ginggen,Alec; Crivelli,Rocco, Power regulation feedback to optimize robustness of wireless transmissions.
  73. Schleich, Peter, Pulsatile cochlear implant stimulation strategy.
  74. Baumgartner, Josef; Rodriguez-Navarro, Jose; Stoffaneller, Martin; Mitterer, Andreas, Pulse width adaptation for inductive links.
  75. Cowley, Anthony W.; Chilton, Robert J.; Hussain, Saadat; Thompson, David L., Recharging and communication lead for an implantable device.
  76. Miller, III, Scott Allan; Dupeyron, Denis, Relay interface for connecting an implanted medical device to an external electronics device.
  77. Zierhofer, Clemens, Simultaneous intracochlear stimulation.
  78. Zierhofer, Clemens M., Simultaneous stimulation for low power consumption.
  79. Harrison,William Vanbrooks; Faltys,Michael A., Spatial decimation stimulation in an implantable neural stimulator, such as a cochlear implant.
  80. Tortonese, Marco; Beerling, Timothy; Haller, Matthew I., Steerable stylet.
  81. Lozano, Andres M., Stimulation methods and systems for treating an auditory dysfunction.
  82. Davis, Timothy J.; Perz, Leroy L.; Torgerson, Nathan A.; Wahlstrand, Carl D.; Hoffman, David W., Switched power using telemetry in an implantable medical device.
  83. Polak, Marek, Synchronized diagnostic measurement for cochlear implants.
  84. Segel,Philip A.; Overstreet,Edward H.; Kruger,Tracey L.; Mishra,Lakshmi Narayan, System and method for fitting a cochlear implant sound processor using alternative signals.
  85. Segel, Philip A.; Overstreet, Edward H.; Kruger, Tracey L.; Mishra, Lakshmi N., System and method for fitting a hearing prosthesis sound processor using alternative signals.
  86. Moffitt, Michael; Peterson, David K. L., System and method for maintaining a distribution of currents in an electrode array using independent voltage sources.
  87. Moffitt, Michael; Peterson, David K. L., System and method for maintaining a distribution of currents in an electrode array using independent voltage sources.
  88. Overstreet,Edward H, System and method for using a multi-contact electrode to stimulate the cochlear nerve or other body tissue.
  89. Crivelli, Rocco, Telemetry system employing DC balanced encoding.
  90. Creasey, Graham H.; Toong, Hoo-Min, Topical neurological stimulation.
  91. Schulman, Joseph H.; Maltan, Albert A; Santogrossi, Thomas A., Zinc air battery and its uses.
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