Cochlear implants (CIs) are advanced devices designed to provide a sense of sound to individuals with severe hearing loss. They work by bypassing damaged hair cells in the cochlea and directly ...

Scientists have kept a tiny slice of cochlea alive outside the body, directly witnessing how hair cells amplify sound. The finding confirms a universal principle of hearing and could pave the way for ...

The organ of Corti – the hearing organ of the inner ear - forms from a ribbon of progenitor cells running the length of the cochlear duct, termed the prosensory domain. Starting at about embryonic day ...

Professor UEYAMA Takehiko (Biosignal Research Center, Kobe University) and the inner ear research group (Kyoto Prefectural University of Medicine) have identified the cell types in the inner ear ...

The cochlea is a complex organ within the inner ear, which is responsible for translating physical sound waves into electrical information the brain can recognize as sound. The cochlea is lined with ...

The brain may play a role in helping the ear regulate its sensitivity to sound and compensate for hearing loss by sending a signal to a structure in the inner ear known as the cochlea, according to a ...

Hearing loss is one of the most common disabilities in the United States, with approximately half of all adults suffering from some degree of hearing loss by the time they reach retirement age.

The cochlear labyrinth is the portion of the inner ear that contains the cochlear duct and the perilymphatic space, which is located between the boney and membranous parts of the inner ear. The ...