In an effort to better understand how the inner ear can hear the quietest of noises, researchers from Yale University ...

The human ear has a complex, previously unidentified ... These modes affect how sound waves travel along the basilar membrane, with hair cells playing a key role in amplification.

"We set out to understand how the ear can tune itself to detect faint ... waves that travel along the cochlea's hair-lined basilar membrane. "Each pure tone rings at one point along this spiral ...

“We set out to understand how the ear can tune itself to detect faint sounds without ... they become surface waves that travel along the cochlea’s hair-lined basilar membrane. “Each pure tone rings at ...

2012;8(2):107-109. Of special concern when considering hearing in aging is the loss of hair cells located on the basilar membrane in the cochlea in the inner ear: some 12,000–15,000 outer hair ...

“We set out to understand how the ear can tune itself to detect faint ... waves that travel along the cochlea’s hair-lined basilar membrane. “Each pure tone rings at one point along this ...

Its floor is formed by the osseous spiral lamina and the basilar membrane, which separate the cochlear duct from the scala tympani. Figure 1A. The ear has 3 parts. Conductive hearing loss usually ...

“We set out to understand how the ear can tune itself to detect faint sounds without ... they become surface waves that travel along the cochlea’s hair-lined basilar membrane. “Each pure tone rings at ...