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Bio
Areas of Interest
The Altschuler Laboratory studies the molecular and cellular elements that make uThe Altschuler Laboratory studies the molecular and cellular elements that underlie mature auditory and vestibular function, identifies changes associated with disorders, and develops mechanism-based interventions for protection, treatment, and repair.
Tinnitus and Auditory Processing Disorders
Studies focus on activity-dependent plasticity and how changes contribute to tinnitus and auditory processing disorders. We find that deafness or noise induces modifications of neurotransmitters, receptors, and ion channels. The second area of focus examines central (efferent) modulation of the auditory nerve and how the loss of specific neurotransmitter systems changes processing.
Stem Cells and Tissue Engineering the Auditory Nerve
These studies use stem cells to replace the auditory nerve that is lost following deafness, as well as develop methods to enhance the survival of the remaining auditory nerve and induce regrowth.
Protection from Deafness and Age-related Hearing Loss
These studies identify natural cellular protective mechanisms, determine if the loss in their efficacy contributes to age-related hearing loss and develop interventions for their enhancement to increase protection from deafness.
Histology/Pathology Core
The Altschuler Lab also contains the Histology/Pathology Core, which provides services to multiple investigators at the Kresge Hearing Research Institute and the University of Michigan, as well as Michigan State University, Wayne State University, and the University of Toledo.
The Altschuler Laboratory studies the molecular and cellular elements that make uThe Altschuler Laboratory studies the molecular and cellular elements that underlie mature auditory and vestibular function, identifies changes associated with disorders, and develops mechanism-based interventions for protection, treatment, and repair.
Tinnitus and Auditory Processing Disorders
Studies focus on activity-dependent plasticity and how changes contribute to tinnitus and auditory processing disorders. We find that deafness or noise induces modifications of neurotransmitters, receptors, and ion channels. The second area of focus examines central (efferent) modulation of the auditory nerve and how the loss of specific neurotransmitter systems changes processing.
Stem Cells and Tissue Engineering the Auditory Nerve
These studies use stem cells to replace the auditory nerve that is lost following deafness, as well as develop methods to enhance the survival of the remaining auditory nerve and induce regrowth.
Protection from Deafness and Age-related Hearing Loss
These studies identify natural cellular protective mechanisms, determine if the loss in their efficacy contributes to age-related hearing loss and develop interventions for their enhancement to increase protection from deafness.
Histology/Pathology Core
The Altschuler Lab also contains the Histology/Pathology Core, which provides services to multiple investigators at the Kresge Hearing Research Institute and the University of Michigan, as well as Michigan State University, Wayne State University, and the University of Toledo.
Research Interests
Papers共 172 篇Author StatisticsCo-AuthorSimilar Experts
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FRONTIERS IN INTEGRATIVE NEUROSCIENCE (2024): 1387066-1387066
Dylan Bartikofsky, Mikayla Jade Hertz,David S. Bauer,Richard Altschuler,W. Michael King,Courtney Elaine Stewart
FRONTIERS IN INTEGRATIVE NEUROSCIENCE (2023): 1196477-1196477
FRONTIERS IN NEUROLOGY (2020): 593919-593919
The Journal of the Acoustical Society of Americano. 5 (2019): 3681-3681
Neuroscience (2018): 32-40
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