Add to ORKGThe inner ear houses the cochlea which contains hair cells responsible for the transduction of sound waves. The process of forming these hair cells responsible for hearing is a complicated process consisting of many signaling factors that allow ectoderm to form into the otic placode, the otic vesicle, and finally prosensory cells such as hair cells (Schlosser, 2006). Loss of these hair cells contributes to deafness and hearing loss throughout life, and regeneration of these cells may serve as a therapeutic agent for those with irreversible damage. This review looks at the development of the otic placode and hair cells and the possibility of regenerating hair cells from stem cell populations
The inner ear contains many types of cell, including sensory hair cells and neurons. If these cells ...
In the mammalian cochlea, hair cell death is irreversible. New work shows that stem cells might exis...
Sensory neural hearing loss and vestibular dysfunction have become the most common forms of sensory ...
The development of therapeutic interventions for hearing loss requires fundamental knowledge about t...
The inner ear is responsible for both hearing and balance in the body, and since the initial develop...
Hair cells are specialized mechanosensitive cells responsible for mediating balance and hearing with...
AbstractIn mammals, hair cells may be damaged or lost due to genetic mutation, infectious disease, c...
Hair cells are specialized mechanosensitive cells responsible for mediating balance and hearing with...
In view of the prevalence of sensorineural hearing defects in an ageing population, the development ...
While inner ear disorders are common, our ability to intervene and recover their sensory function is...
Sensorineural hearing loss is the most common sensory deficit in humans. Despite the global scale of...
Human inner ear tissue derived from pluripotent stem cells could provide a powerful platform for dru...
Sensorineural hearing loss is the most common sensory deficit in humans. Despite the global scale of...
Auditory hair cells (HCs) cannot be spontaneously regenerated or replaced in mammalian damaged cochl...
Sensorineural hearing loss and vestibular dysfunction are caused by damage to neurons and mechanosen...
The inner ear contains many types of cell, including sensory hair cells and neurons. If these cells ...
In the mammalian cochlea, hair cell death is irreversible. New work shows that stem cells might exis...
Sensory neural hearing loss and vestibular dysfunction have become the most common forms of sensory ...
The development of therapeutic interventions for hearing loss requires fundamental knowledge about t...
The inner ear is responsible for both hearing and balance in the body, and since the initial develop...
Hair cells are specialized mechanosensitive cells responsible for mediating balance and hearing with...
AbstractIn mammals, hair cells may be damaged or lost due to genetic mutation, infectious disease, c...
Hair cells are specialized mechanosensitive cells responsible for mediating balance and hearing with...
In view of the prevalence of sensorineural hearing defects in an ageing population, the development ...
While inner ear disorders are common, our ability to intervene and recover their sensory function is...
Sensorineural hearing loss is the most common sensory deficit in humans. Despite the global scale of...
Human inner ear tissue derived from pluripotent stem cells could provide a powerful platform for dru...
Sensorineural hearing loss is the most common sensory deficit in humans. Despite the global scale of...
Auditory hair cells (HCs) cannot be spontaneously regenerated or replaced in mammalian damaged cochl...
Sensorineural hearing loss and vestibular dysfunction are caused by damage to neurons and mechanosen...
The inner ear contains many types of cell, including sensory hair cells and neurons. If these cells ...
In the mammalian cochlea, hair cell death is irreversible. New work shows that stem cells might exis...
Sensory neural hearing loss and vestibular dysfunction have become the most common forms of sensory ...