Yale physicists have discovered a sophisticated, previously unknown set of "modes" within the human ear that put important ...

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

It travels from the cochlea, a spiral-shaped structure in the inner ear, to the brainstem as part of the eighth cranial nerve. The other part of cranial nerve VIII, called the vestibular nerve ...

Yale 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, ...

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

The blue spiral in the center of this field of green and white cells looks as if it might be a seashell. However, it is actually the cochlea of a newborn mouse. The cochlea is an organ in the inner ...

There are two and a half turns in the human cochlea and if you were to unwind the cochlea it would stretch to nearly an inch in length. By winding itself in a spiral, the organ takes up less space.

The cochlear duct. The cochlear duct extends from the osseous spiral lamina to the wall of the cochlea (Fig. 1B). Its roof is formed by the vestibular (Reissner's) membrane, which separates it ...

SNHL occurs when the inner ear, the cochlea, is damaged. The cochlea is a spiral-shaped cavity filled with fluid containing the critical hearing cells. The primary hearing cells are the hair cells, ...