The adult mammalian cochlear sensory epithelium houses two major types of cells, mechanosensory hair cells and underlying supporting cells, and lacks regenerative capacity. Recent evidence ...

Characterization of the development of the mouse cochlear epithelium at the single cell level. Nature Communications , 2020; 11 (1) DOI: 10.1038/s41467-020-16113-y Cite This Page : ...

The cross-sectional area of the tectorial membrane in the distal end of the apical cochlear coil of the Tectb −/− mutant mouse was approximately twice that of heterozygous or wild-type mice ...

The organ of Corti – the hearing organ of the inner ear - forms from a ribbon of progenitor cells running the length of the cochlear duct, termed the prosensory domain. Starting at about embryonic day ...

Researchers developed a new terahertz imaging method that was able to visualize internal details of the mouse cochlea with micron-level spatial resolution. An excised mouse cochlea is pictured ...

In this paper, Drs. Miller and Alagramam offer further evidence for the existence of cochlear stem cells in the mouse cochlea by confirming the ability to form 'stem cell' spheres in culture and ...

Putnam Valley, NY. (June 26 , 2012) –Researchers in Japan who evaluated the risks and efficacy of transplanting two varieties of stem cells into mouse cochlea have concluded that both adult ...

What am I looking at? To study the cells of this cochlea, researchers extracted it from a newborn mouse and grew it in culture. The cochlea itself is the blue spiral at the center of the image (1).

Researchers have employed a precise means of genetic editing, called CRISPR-Cas9, to “erase” a pathogenic variant that causes hearing loss in a mouse model termed “Beethoven.” ...

A team of researchers has generated a developmental map of a key sound-sensing structure in the mouse inner ear. Scientists analyzed data from 30,000 cells from mouse cochlea, the snail-shaped ...

Researchers have discovered a groundbreaking use of terahertz (THz) imaging to visualize cochlear structures in mice, offering non-invasive, high-resolution diagnostics. By creating 3D ...

For the first time, researchers have shown that terahertz imaging can be used to visualize internal details of the mouse cochlea with micron-level spatial resolution. The non-invasive method could ...