Researchers from the Keck School of Medicine of USC, in partnership with Baylor College of Medicine in Houston, Texas, ...

Most cochlear nerves carry information from the cochlea to the brain, but about 5% send signals in the opposite direction: ...

If some speakers in your sound system were broken, you might try to compensate by cranking up the volume on the ones that ...

Most cochlear nerves carry information from the cochlea to the brain, but about 5% send signals in the opposite direction: from the brain to the cochlea. The exact role of those fibers has been a ...

Most cochlear nerves carry information from the cochlea to the brain, but about 5% send signals in the opposite direction: from the brain to the cochlea. The exact role of those fibers has been a ...

The cochlea is a snail-shaped structure in the inner ear. In the cochlea, there are nerve cells with thousands of miniature hairs attached to them. These hairs help convert the sound wave ...

Hearing aids amplify sound and filter background noise, while cochlear implants bypass damaged parts of the ear to send electrical signals directly to the auditory nerve. Jump to insight Modern ...

They work by bypassing damaged hair cells in the cochlea and directly stimulating the auditory nerve, allowing users to perceive sound. Recent research has focused on understanding how various ...

This results in excitation of the corresponding hair cells and the generation of a cochlear nerve impulse. Thus, the hair cells play a major role in the conversion of mechanical (acoustic ...