Yale physicists uncover a new set of hearing modes in the human ear, revealing complex cochlear mechanics that enhance sound ...

Yale researchers discovered new cochlear hearing modes that influence how the ear amplifies sound and processes frequencies.

Physicists have discovered a sophisticated, previously unknown set of 'modes' within the human ear that put important constraints on how the ear amplifies faint sounds, tolerates noisy blasts, and ...

The nerve is made up of the neuronal projections that connect the hair cells with the brain and is called the eighth nerve because it is one of 12 nerves that come off the brain in the skull. The ...

The inner hair cells are arranged in a single row and remain free to respond to movement of endolymph in the cochlear duct. The outer hair cells are arranged in 3 rows in the basal coil of the ...

Recent research has focused on understanding the mechanics of the cochlea, particularly the role of the basilar membrane (BM) and outer hair cells (OHCs) in sound processing. These studies have ...

The function of the outer hair cell in hearing is now perceived as that of a cochlear amplifier that refines the sensitivity and frequency selectivity of the mechanical vibrations of the cochlea.

A spiral-shaped organ inside your inner ear called your cochlea contains tiny hairs known as stereocilia. These hairs convert vibrations from sound waves into neural signals that your auditory ...

Top: Rows of healthy sensory hair cells in the mouse inner ear with green stereocilia arcs. Middle: In Rest mutant mice, hair cells are disorganized, and stereocilia barely visible. Bottom ...