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Hearing loss is the most common form of sensory impairment in humans, affecting 360 million persons worldwide. In parallel, tinnitus disorder, the perception of a phantom sound often described as a ringing or buzzing, affects around 1015% of the general population and interferes with daily life. Hyperacusis, defined as a hypersensitivity to moderate-intensity sounds often co-occurs with tinnitus suggesting a common mechanism of dysfunction for these two perceptual disorders. Whereas some drug candidates are in the process of being developed, nowadays no effective treatment exists to cure hearing loss and tinnitus.
The topic of this book was selected with the goal of emphasizing mechanisms that induce hearing loss and tinnitus which lead the selection of promising targets for hearing disorder treatment.
Hair cells (HC) are the sensory cells of the inner ear required for both auditory and vestibular functions in all vertebrates. HC are progressively lost during ageing and they are in addition sensitive to physical and acoustic traumas, infectious diseases and chemicals present in commonly used treatments such as anticancer, antimalarial or antibiotics. As adult mammals--including humans--cannot regenerate dead HC, all the possible injury could result in irreversible and permanent hearing loss. It has been shown, however, that a limited capacity to regenerate HC exists in mouse at an early stage of development. The regenerative capacity of HC then appears simply repressed in adult mammals, and one could expect it will be possible to re-activate it with an appropriate therapeutic approach which is still to be defined.
Immune-mediated inner ear disease has been introduced and accepted as one SNHL pathophysiology; it responds to immunosuppressive therapy and is one of the few reversible forms of bilateral SNHL. Macrophages are always present in the spiral ligament of the lateral wall and are activated in response to various types of stimuli, including noise exposure, ischemia, mitochondrial damage, and surgical stress. Recent studies have also revealed another type of immune cell, called perivascular melanocyte-like macrophages (PVM/Ms), in the stria vascularis. The book will include a review of inflammatory/immune cells in the cochlear lateral wall, the pathways involved in cochlear damage and their potential as therapeutic targets.
The final chapter provides an overview of current animal model of tinnitus and hyperacusis. Nowadays no effective treatment exists to cure tinnitus and hyperacusis. One major obstacle to arises from the fact that tinnitus is a subjective phenomenon, the only possible diagnosis relies on self-reports of the subjects. The main constraint of the use of animal models is the subjective character of tinnitus. This chapter describe the advancement in animal models which play an important role in revealing the underlying mechanisms and treatment for tinnitus and hyperacusis.
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
Auteur
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.
Dr. Richard Salvi is the co-founder and director of the University of Buffalo's Center for Hearing and Deafness. His lab focuses on multiple areas in the field of hearing and deafness. Dr. Salvi is an expert on the plasticity of the central auditory system, the effect of sensory hair cell loss on auditory function, noise-induced hearing loss, tinnitus, hyperacusis and auditory perception.
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