In all commercial cochlear implant (CI) devices, the electric stimulation is performed with a rectangular pulse that generally has two phases of opposite polarity. To date, developing new stimulation strategies has relied on the efficacy of this shape. Here, we investigate the potential of a novel stimulation paradigm that uses biophysically-inspired electrical ramped pulses. Using electrically-evoked auditory brainstem response (eABR) recordings in mice, we found that less charge, but higher current level amplitude, is needed to evoke responses with ramped shapes that are similar in amplitude to responses obtained with rectangular shapes. The most charge-efficient pulse shape had a rising ramp over both phases, supporting findings from pre...
To further understand the response of the human brainstem to electrical stimulation, a series of exp...
It has been suggested that a specialized high-temporal-acuity brainstem pathway can be activated by ...
Auditory brainstem implants (ABIs) provide sound awareness to deaf individuals who are not candidate...
Abstract In all commercial cochlear implant (CI) devices, the electric stimulation is performed with...
The electric stimulation provided by current cochlear implants (CI) is not power efficient. One unde...
Improving the electrode-neuron interface to reduce current spread between individual electrodes has ...
Improving the electrode-neuron interface to reduce current spread between individual electrodes has ...
Electrical stimulation of the cochlea with a multiple-electrode array is best accomplished using pul...
Commercially available cochlear implants (CIs) stimulate the auditory nerve (AN) by presenting symme...
OBJECTIVE Cochlear implants (CIs) have become the gold standard treatment for deafness. These neu...
Worldwide, Cochlear Implants (CIs) have already partially restored hearing to over 219000 profoundly...
International audienceMost cochlear implants (CIs) stimulate the auditory nerve with trains of symme...
This is a publisher’s version of an article published in Journal of Clinical Engineering 1992. This ...
Power efficiency in electrical stimulator circuits is crucial for developing large-scale multichanne...
Cochlear implants use electrical stimulation of the auditory nerve to restore the sensation of heari...
To further understand the response of the human brainstem to electrical stimulation, a series of exp...
It has been suggested that a specialized high-temporal-acuity brainstem pathway can be activated by ...
Auditory brainstem implants (ABIs) provide sound awareness to deaf individuals who are not candidate...
Abstract In all commercial cochlear implant (CI) devices, the electric stimulation is performed with...
The electric stimulation provided by current cochlear implants (CI) is not power efficient. One unde...
Improving the electrode-neuron interface to reduce current spread between individual electrodes has ...
Improving the electrode-neuron interface to reduce current spread between individual electrodes has ...
Electrical stimulation of the cochlea with a multiple-electrode array is best accomplished using pul...
Commercially available cochlear implants (CIs) stimulate the auditory nerve (AN) by presenting symme...
OBJECTIVE Cochlear implants (CIs) have become the gold standard treatment for deafness. These neu...
Worldwide, Cochlear Implants (CIs) have already partially restored hearing to over 219000 profoundly...
International audienceMost cochlear implants (CIs) stimulate the auditory nerve with trains of symme...
This is a publisher’s version of an article published in Journal of Clinical Engineering 1992. This ...
Power efficiency in electrical stimulator circuits is crucial for developing large-scale multichanne...
Cochlear implants use electrical stimulation of the auditory nerve to restore the sensation of heari...
To further understand the response of the human brainstem to electrical stimulation, a series of exp...
It has been suggested that a specialized high-temporal-acuity brainstem pathway can be activated by ...
Auditory brainstem implants (ABIs) provide sound awareness to deaf individuals who are not candidate...