Abstract Background Culturing otospheres from dissociated organ of Corti is an appropriate starting point aiming at the development of cell therapy for hair cell loss. Although guinea pigs have been widely used as an excellent experimental model for studying the biology of the inner ear, the mouse cochlea has been more suitable for yielding otospheres in vitro. The aim of this study was to compare conditions and outcomes of otosphere suspension cultures from dissociated organ of Corti of either mouse or guinea pig at postnatal day three (P3), and to evaluate the guinea pig as a potential cochlea donor for preclinical cell therapy. Methods ...
Hair cell (HC) loss is irreversible because only very limited HC regeneration has been observed in t...
The adult mammalian cochlea lacks regenerative capacity, which is the main reason for the permanence...
The embryonic mouse inner ear was used as a model with which to study ototoxicity and tissue interac...
Abstract Background Culturing otospheres from dissoci...
International audienceThe generation of replacement inner ear hair cells (HCs) remains a challenge a...
In mammals, damage to sensory receptor cells (hair cells) of the inner ear results in permanent sens...
Abstract Background Hearing loss affects 25% of the population at ages 60–69 years. Loss of the hair...
A practical consideration in the development of cellular therapy technology for the inner ear is the...
AbstractThe sensory hair cells and supporting cells of the organ of Corti are generated by a precise...
Introduction: Loss of hair cells in mammals causes permanent sensorineural hearing loss, as these ce...
The mammalian inner ear has very limited ability to regenerate lost sensory hair cells. This deficie...
The inner ear is a complex organ containing highly specialised cell types and structures that are cr...
The peripheral hearing process taking place in the cochlea mainly depends on two distinct sensory ce...
Both outer hair cells (OHCs) and inner hair cells (IHCs) survive and mature in 3 days old rat organ ...
Thesis: Ph. D., Harvard-MIT Program in Health Sciences and Technology, 2014.Cataloged from PDF versi...
Hair cell (HC) loss is irreversible because only very limited HC regeneration has been observed in t...
The adult mammalian cochlea lacks regenerative capacity, which is the main reason for the permanence...
The embryonic mouse inner ear was used as a model with which to study ototoxicity and tissue interac...
Abstract Background Culturing otospheres from dissoci...
International audienceThe generation of replacement inner ear hair cells (HCs) remains a challenge a...
In mammals, damage to sensory receptor cells (hair cells) of the inner ear results in permanent sens...
Abstract Background Hearing loss affects 25% of the population at ages 60–69 years. Loss of the hair...
A practical consideration in the development of cellular therapy technology for the inner ear is the...
AbstractThe sensory hair cells and supporting cells of the organ of Corti are generated by a precise...
Introduction: Loss of hair cells in mammals causes permanent sensorineural hearing loss, as these ce...
The mammalian inner ear has very limited ability to regenerate lost sensory hair cells. This deficie...
The inner ear is a complex organ containing highly specialised cell types and structures that are cr...
The peripheral hearing process taking place in the cochlea mainly depends on two distinct sensory ce...
Both outer hair cells (OHCs) and inner hair cells (IHCs) survive and mature in 3 days old rat organ ...
Thesis: Ph. D., Harvard-MIT Program in Health Sciences and Technology, 2014.Cataloged from PDF versi...
Hair cell (HC) loss is irreversible because only very limited HC regeneration has been observed in t...
The adult mammalian cochlea lacks regenerative capacity, which is the main reason for the permanence...
The embryonic mouse inner ear was used as a model with which to study ototoxicity and tissue interac...
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