Abstract: Implantable electrode leads, e.g. cochlear, spinal cord stimulation, or any type of neurostimulation leads, used in a patient's body to stimulate muscle or nerve tissue, provide enhanced stimulation for treating, e.g., hearing loss or chronic pain. One such lead includes, an implantable electrode array, adapted for insertion into a cochlea, which lead provides improved stability of electrode contact direction. In-line electrodes are spaced-apart along one side of a flexible carrier having non-conductive bumps coated with a bioresorbable material spaced apart between each electrode contact. Over time the bioresorbable material is absorbed thereby reducing chronic placement pressure caused during the insertion of the electrode array into the cochlea. The bioresorbable material may also serve as a carrier for drugs or other materials that would improve performance of the electrode for any type of lead.
Type:
Grant
Filed:
June 1, 2006
Date of Patent:
May 24, 2011
Assignee:
Advanced Bionics, LLC
Inventors:
William Vanbrooks Harrison, Michael S Colvin, Janusz A Kuzma, Thomas J Balkany
Abstract: Audio streaming is made available throughout the signal processing path of a speech (or audio) processor of a cochlear implant system. Audio streaming allows one to “listen in” to what a cochlear implant patient may be hearing. As an audio signal stream is received and digitally processed, it may be sampled at any of a number of sample points. The signal at a selected sample point allows appropriate diagnostics to be performed. An auto-referencing mixed-mode phase locked loop processes an asynchronous stream of digital audio samples that arrive at a consistent, but unknown, average rate. Once received, the average sample rate is extracted, and a local clock is generated at the average frequency. The incoming audio streaming samples are then re-synchronized with the local clock in order to allow digitally phase locked playback of the audio stream.
Abstract: A network interface module that forms part of a bilateral cochlear implant system which allows two standalone BTE units to be synchronized both temporally and tonotopically in order to maximize a patients listening experience. The bilateral cochlear network includes a communications interposer adapted to be inserted between the BTE battery and the BTE housing or modified BTE devices.
Abstract: A system for treating patients affected both by hearing loss and by balance disorders related to vestibular hypofunction and/or malfunction, which includes sensors of sound and head movement, processing circuitry, a power source, and an implantable electrical stimulator capable of stimulating areas of the cochlea and areas of the vestibular system.
Type:
Grant
Filed:
May 4, 2007
Date of Patent:
January 12, 2010
Assignees:
John Hopkins School of Medicine, Advanced Bionics, LLC
Inventors:
Charles C. Della Santina, Michael A. Faltys
Abstract: A bionic ear cochlear stimulation system has the capability to stimulate fast enough to induce stochastic neural firing, thereby acting to restore “spontaneous” neural activity. Such neurostimulation involves the use of a high rate pulsitile stimulation signal that is amplitude modulated with sound information. Advantageously, by using such neurostimulation, a fitting system may be utilized that does not normally require T-level threshold measurements. T-level threshold measurements are not required in most instances because the high-rate pulsitile stimulation, even though at levels that would normally be a sub-threshold electrical stimulus, is able to modulate neural firing patterns in a perceptible way.
Abstract: Various embodiments of a burr hole plug assembly offer significant improvements for allowing lead and/or cannula access through a burr hole drilled through a patient's skull in connection with a Deep Brain Stimulation system, and subsequent sealing of such burr hole.
Type:
Grant
Filed:
January 18, 2002
Date of Patent:
February 28, 2006
Assignee:
Advanced Bionics Corporation
Inventors:
Anne M. Pianca, Carla M. Mann, Tom Xiaohai He, Michael Dogali
Abstract: An envelope based amplitude mapping achieves the signal compression required to provide a natural sound level without the high processor loading or waveform alteration. In a preferred embodiment, the output of a family of parallel bandpass filters is processed by an envelope detector, followed by decimation. The resulting reduced data rate envelope is log mapped to produce a scaling factor for the original high data rate bandpass filter output sequence. The resulting scaled signal determines the current level for stimulation of the cochlea for each frequency band, which stimulation achieves a log mapping of the sound amplitude effect similar to natural hearing, while reducing processor load, and preserving waveform shape.