![]() In the best of cases, CI users can make fluent use of a telephone, understand speech in adverse listening conditions where there is considerable competing noise and reverberation, hence enjoying independence spanning social lives and careers that would have been unimaginable without their CI device. Today over half a million people, from babies under 6 months of age to adults in their late 90s, have been implanted with a CI. While it can be argued that the CI is the most successful medical device ever created, the outcomes are still highly variable ( Figure 1). The early devices that were produced in academic institutions were transferred to commercial organizations, these often building on prior medical device experience, for example experience gained in the pace maker field. While many of these pioneers suffered ridicule at the hands of the mainstream scientific community, clinical considerations prevailed. During the two decades following this work, various clinical studies saw the implantation of single and then multi-channel cochlear implant (CI) systems in people suffering profound deafness. However, the forerunner of a modern CI system is just over 60 years old: opportunistic stimulation of the auditory nerve of a bilaterally deaf patient receiving a facial nerve graft. When Volta applied 50 volts to his own head, he reported hearing an unpleasant boiling sound. From the beginning to current practiceĮlectrical stimulation of the human auditory system is generally traced back to the pioneering experiments of Alessandro Volta, inventor of the battery. Research that is likely to bring medium term benefits to the clinical application of cochlear implants will also be described.ġ. Alternative devices such as auditory brainstem implants will be described, and additionally the more experimental auditory mid-brain implants and intraneural stimulation approaches. Today’s variety of patient will be reviewed: unilaterally and bilaterally implanted, bimodal users of a cochlear implant as well as a contralateral hearing aid, CROS device users having either asymmetrical hearing loss or single-sided deafness. The challenges involved in the design and application of cochlear implants will be outlined, including the programming of clinical systems to suit the needs of implanted patients. This chapter will describe how electrical stimulation manages to compensate for sensory-neural hearing loss by bypassing the damaged cochlea. In many healthcare systems electrical stimulation of the human auditory system, using cochlear implants, is a common treatment for severe to profound deafness.
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