The Primary Auditory Neurons of the Mammalian Cochlea

This volume details the essential role of the spiral ganglion neurons. The volume elucidates and characterizes their development, their environment, their electrophysiological characteristics, their connectivity to their targets in the inner ear and the brain, and discusses the potential for their regeneration. A comprehensive review about the spiral ganglion neurons is important for researchers not only in the inner ear field but also in development, neuroscience, biophysics as well as neural networks researchers. The chapters are authored by leading researchers in the field.

From neurogenesis to biophysics and stem cell replacement therapy, the comprehensive and wide-ranging subjects encompassed will ensure that this volume will enlighten and function as a catalyst for future research and discovery Comprises a significant up-to-date source of information on the spiral ganglion Details the essential role of the spiral ganglion neurons, elucidates and characterizes their development, their environment, and discusses the potential for their regeneration Includes supplementary material: sn.pub/extras

Texte du rabat

This volume details the essential role of the spiral ganglion neurons. A comprehensive review about the spiral ganglion neurons is important for researchers not only in the inner ear field but also in development, neuroscience, biophysics as well as neural networks researchers. The chapters are authored by leading researchers in the field.

• Connecting the Inner Ear to the Central Auditory System: Molecular Development and Characteristics of the Primary Auditory Neurons and Their Network by Alain Dabdoub and Bernd Fritzsch

• Early Development of the Spiral Ganglion by Lisa V. Goodrich

• Neurotrophic Factor Function during Ear Development: Expression Changes Define Critical Phases for Neuronal Viability by Bernd Fritzsch, Jennifer Kersigo, Tian Yang, Israt Jahan, and Ning Pan

• The Electrophysiological Signature of Spiral Ganglion Neurons by Robin L. Davis and Robert A. Crozier

• The Ribbon Synapse Between Type I Spiral Ganglion Neurons and Inner Hair Cells by Mark A. Rutherford and Tobias Moser

• Central Projections of Spiral Ganglion Neurons by Michael A. Muniak, Catherine J. Connelly, Kirupa Suthakar, Giedre Milinkeviciute, Femi E. Ayeni, and David K. Ryugo

• The Spiral Ganglion in an Out-of-Body Experience: a Brief History of In Vitro Studies of the Spiral Ganglion by Steven H. Green, Erin M. Bailey, Jonathan C. Kopelovich, and Marlan R. Hansen

• Loss, Degeneration, and Preservation of the Spiral Ganglion Neurons and Their Processes by Hainan Lang

• Stem Cells for the Replacement of Auditory Neurons by Bryony A. Nayagam and Albert S. B. Edge About the Editors:

Alain Dabdoub is Research Director of The Sunnybrook Hearing Regeneration Initiative, Sunnybrook Research Institute and an Assistant Professor in the Department of Otolaryngology Head and Neck Surgery at the University of Toronto

Bernd Fritzsch is Chair of the Department of Biology and Co-Director of the Center on Aging and Aging Mind and Brain Initiative , University of Iowa, Iowa City

Arthur N. Popper is Professor Emeritus and Research Professor in the Department of Biology at the University of Maryland, College Park.

Richard R. Fay is Distinguished Research Professor of Psychology at Loyola University Chicago.

Contenu

Preface.- Connecting the Inner Ear to the Central Auditory System: Molecular Development and Characteristics of the Primary Auditory Neurons and Their Network.- Early Development of the Spiral Ganglion.- Neurotrophic Factor Function during Ear Development: Expression Changes Define Critical Phases for Neuronal Viability.- The Electrophysiological Signature of Spiral Ganglion Neurons.- The Ribbon Synapse Between Type I Spiral Ganglion Neurons and Inner Hair Cells.- Central Projections of Spiral Ganglion Neurons.- The Spiral Ganglion in an Out-of-Body Experience: a Brief History of In Vitro Studies of the Spiral Ganglion.- Loss, Degeneration, and Preservation of the Spiral Ganglion Neurons and Their Processes.- Stem Cells for the Replacement of Auditory Neurons.