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

For most people, their ears are able to process these wide-ranging sounds and make sense of them. However, scientists don't have a full sense of why this happens because they are still working to ...

A new flexible hearing aid uses micro-epidermal actuators to treat conductive hearing loss, offering a non-invasive ...

Get Instant Summarized Text (Gist) Nerve fibers in the inner ear help regulate sound sensitivity and compensate for hearing loss by sending signals from the brain to the cochlea. A new imaging ...

The busy MUSC Health Cochlear Implant Program is about to launch another clinical trial. This one will test a device that has ...

Researchers from the Keck School of Medicine of USC, in collaboration with Baylor College of Medicine in Houston, Texas, used an innovative imaging tool to examine the mouse inner ear and made a ...

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 ...

A study highlights a new approach in addressing conductive hearing loss. A team of scientists has designed a new type of hearing aid that not only improves hearing but also offers a safe, non-invasive ...

A study from researchers at Wake Forest University School of Medicine highlights a new approach in addressing conductive ...

These vibrations move through tiny bones in the middle ear to the fluid-filled cochlea in the inner ear, where thousands of microscopic hair cells convert them into electrical signals. These ...

The cochlea uses sensory hair cells to detect sound waves in the air, then converts them into electrical signals that the brain can process. Most cochlear nerves carry information from the cochlea ...