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Inner-hair-cell induced hearing loss: A biophysical modeling perspective
Michael Faran,
Miriam Furst
Department of Bio-Medical Engineering
School of Electrical Engineering
Research output
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Contribution to journal
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Article
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peer-review
1
Scopus citations
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Dive into the research topics of 'Inner-hair-cell induced hearing loss: A biophysical modeling perspective'. Together they form a unique fingerprint.
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Keyphrases
Hearing Impairment
100%
Inner Hair Cell
100%
Biophysical Modeling
100%
Modeling Perspectives
100%
Outer Hair Cell
50%
Cell Damage
25%
Audiogram
25%
Cilia
25%
Auditory Pathway
12%
Biochemical Parameters
12%
Gradual Change
12%
Computational Model
12%
Synapse
12%
Biophysical Model
12%
Acoustic Signal
12%
Mechanical Model
12%
Cochlea
12%
Threshold Shift
12%
Auditory Nerve
12%
Mechanical Parameters
12%
Frequency up
12%
Cochlear Partition
12%
Audiometric Thresholds
12%
Mid-high Frequency
12%
Medicine and Dentistry
Hearing Impairment
100%
Inner Hair Cell
100%
Outer Hair Cell
50%
Cell Damage
25%
Audiogram
25%
Cilium
25%
Base
12%
Synapse
12%
Cochlea
12%
Neuroscience
Cell Damage
100%
Cilium
100%
Synapse
50%
Cochlea
50%
Hearing Loss
50%