Add to ORKGMature mammals exhibit very limited capacity for regeneration of auditory hair cells, while all non-mammalian vertebrates examined can regenerate them. In an effort to find therapeutic targets for deafness and balance disorders, scientists have examined gene expression patterns in auditory tissues under different developmental and experimental conditions. Microarray technology has allowed the large-scale study of gene expression profiles (transcriptomics) at whole-genome levels, but since mRNA expression does not necessarily correlate with protein expression, other methods, such as microRNA analysis and proteomics, are needed to better understand the process of hair cell regeneration. These technologies and some of the results of them are d...
Mammalian inner ear hair cells do not have the ability to spontaneously regenerate, so their irrever...
Fishes are capable of regenerating sensory hair cells in the inner ear after exposure to excessive n...
The organ of Corti is a mosaic of nonsensory supporting cells and sensory hair cells; the latter are...
Mature mammals exhibit very limited capacity for regeneration of auditory hair cells, while all non-...
Inner ear hair cells (HCs) are the main mechanoreceptors involved in the detection of sound, balance...
Background/Aims: Hearing and balance deficits are mainly caused by loss of sensory inner ear hair ce...
Regenerative medicine holds great promise for both degenerative diseases and traumatic tissue injury...
Loss of inner ear sensory hair cells (HC) is a leading cause of human hearing loss and balance disor...
The inner ear consists of two groups of organs, the auditory and vestibular organs. The auditory or...
The mammalian auditory sensory epithelium, the organ of Corti, is composed of hair cells and support...
peer reviewedDeafness commonly results from a lesion of the sensory cells and/or of the neurons of t...
All nonmammalian vertebrates studied can regenerate inner ear mechanosensory receptors, i.e. hair ce...
Loss of inner ear sensory hair cells (HC) is a leading cause of human hearing loss and balance disor...
The inner ear utilizes sensory hair cells as mechano-electric transducers for sensing sound and bala...
Hearing loss affects hundreds of millions of people worldwide by dampening or cutting off their audi...
Mammalian inner ear hair cells do not have the ability to spontaneously regenerate, so their irrever...
Fishes are capable of regenerating sensory hair cells in the inner ear after exposure to excessive n...
The organ of Corti is a mosaic of nonsensory supporting cells and sensory hair cells; the latter are...
Mature mammals exhibit very limited capacity for regeneration of auditory hair cells, while all non-...
Inner ear hair cells (HCs) are the main mechanoreceptors involved in the detection of sound, balance...
Background/Aims: Hearing and balance deficits are mainly caused by loss of sensory inner ear hair ce...
Regenerative medicine holds great promise for both degenerative diseases and traumatic tissue injury...
Loss of inner ear sensory hair cells (HC) is a leading cause of human hearing loss and balance disor...
The inner ear consists of two groups of organs, the auditory and vestibular organs. The auditory or...
The mammalian auditory sensory epithelium, the organ of Corti, is composed of hair cells and support...
peer reviewedDeafness commonly results from a lesion of the sensory cells and/or of the neurons of t...
All nonmammalian vertebrates studied can regenerate inner ear mechanosensory receptors, i.e. hair ce...
Loss of inner ear sensory hair cells (HC) is a leading cause of human hearing loss and balance disor...
The inner ear utilizes sensory hair cells as mechano-electric transducers for sensing sound and bala...
Hearing loss affects hundreds of millions of people worldwide by dampening or cutting off their audi...
Mammalian inner ear hair cells do not have the ability to spontaneously regenerate, so their irrever...
Fishes are capable of regenerating sensory hair cells in the inner ear after exposure to excessive n...
The organ of Corti is a mosaic of nonsensory supporting cells and sensory hair cells; the latter are...