Professor UEYAMA Takehiko (Biosignal Research Center, Kobe University) and the inner ear research group (Kyoto Prefectural University of Medicine) have identified the cell types in the inner ear ...

Toxicity Index, Patient-Reported Outcomes, and Early Discontinuation of Endocrine Therapy for Breast Cancer Risk Reduction in NRG Oncology/NSABP B-35 Children treated with radiation and chemotherapy ...

The ongoing debate about the mechanism by which the mammalian inner ear amplifies incoming sounds now sees the publication of new evidence in favour of a mechanism driven by an influx of calcium ions ...

Some people are born with hearing loss, while others acquire it with age, infections or long-term noise exposures. In many instances, the tiny hairs in the inner ear’s cochlea that allow the brain to ...

Figure 1: Differentiation of the organ of Corti from its postmitotic precursor domain. Figure 2: Unidirectional extension of the organ of Corti in vitro. Figure 3: Presence of a functional PCP pathway ...

Scientists from renowned institutions in Germany have successfully created a microelectromechanical sensor inspired by the cochlea, a hollow, spiral-shaped bone found in the inner ear, TechXplore ...

For decades, hearing experts thought that the cochlea's spiral shape was simply an efficient packing job and its shape had no effect on how this critical hearing organ functions. But a recent study by ...

Sitting at the kitchen table rolling a ball of Play-Doh, Oliver Campbell is a picture of childhood contentment. At just under two years old he is experimenting with words and is happily peppering his ...

The cochlea is key to human hearing, and it plays an important role in our understanding of complex frequency content. The Visual Ear project aims to illustrate the cochlear mechanism as an ...

The cochlea is the portion of the inner ear that senses sound vibrations and converts them into electrical signals that the auditory system can interpret. The cochlea is an example of active cellular ...

Scientists at the University of Michigan have developed the first micro-machined, life-sized, mechanical cochlea, the tiny organ responsible for converting acoustic vibrations into electrical signals ...