Description
New Therapies to Prevent or Cure Auditory Disorders, 1st ed. 2020
Coordinators: Pucheu Sylvie, Radziwon Kelly E., Salvi Richard
Language: EnglishSubjects for New Therapies to Prevent or Cure Auditory Disorders:
Keywords
hearing loss; drug therapy; noise-induced; ototoxicity; tinnitus; hyperacusis
Publication date: 03-2021
Support: Print on demand
Publication date: 03-2020
186 p. · 15.5x23.5 cm · Hardback
Description
/li>Contents
/li>Biography
/li>Comment
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- Life-style intervention to prevent age-related hearing loss : calorie restriction
- Noise-induced hearing loss and drug therapy ; basic and translational science.
- Review of ototoxic drugs and treatment strategies for reducing hearing loss.
- Approaches to regenerate hair cells and spiral ganglion neuron in the inner ear.
- Immune system and macrophage activation in the cochlea: implication for therapeutic intervention
- Preclinical animal Behavioral models of hyperacusis and Loudness recruitment
- New automatic and robust measures to evaluate hearing loss and tinnitus in preclinical models
Dr. Sylvie Pucheu has more than 23 years' experience in academic research and the pharmaceutical industry. Dr. Pucheu is a founder and Chief Scientific Officer at CILcare, a preclinical provider in otology. Before co-founding CILcare, she led an in-vivo pharmacology group working on tinnitus and hearing loss. She has also led scientific teams at Sanofi, and has been involved in their Ethics Committee.
Dr. Kelly E. Radziwon is a Research Assistant Professor in the Dept. of Communication Disorders and Sciences at the University of Buffalo and a member of Center for Hearing and Deafness. Her research focuses on the perceptual aspects of normal and impaired hearing in animal models. Dr. Radziwon is an expert on tinnitus, hyperacusis, temporal processing deficits and complex auditory perception.
Analyzes new molecular therapies that prevent specific pathologies of the ear like age related and noise-induced hearing loss
Provides a review of hair cell regeneration and identifies potential targets for new therapies
Describes the significant advances in animal models that reveal underlying mechanisms and treatment for tinnitus and hyperacusis