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The last decade revealed to auditory researchers that hair cells can not only detect and process mechanical energy, but are also able to produce it. Thanks to the active hair cell, ears can produce otoacoustic emissions. This book gives the newest insights into the biophysics and physiology of individual hair cells and integral hair cell systems such as the inner ear and the lateral line organ.
This proceedings volume contains papers presented during the meeting on Diversity in Auditory Mechanics by leading neurobiologists, biophysicists and mathematicians interested in auditory periphery.
This book contains the proceedings of an international hearing-research conference held in Germany 2002. The conference brought together experts in genetics, molecular and cellular biology, physiology, engineering, physics, mathematics, audiology and medicine to synthesize and extend our understanding of how the cochlea works. Topics are discussed experimentally and theoretically at the molecular, cellular and whole-organ levels. Some of the topics are: mechanosensitivity of motor proteins; mechanochemical transduction by motor proteins; mechanoelectrical transduction in the stereocilia of hair cells; electromechanical transduction in the stereocilia, soma and synapses of hair cells; multidimensional vibration of the organ of Corti; and otoacoustic emissions. This book will be invaluable to researchers and students in auditory science.The proceedings have been selected for coverage in:• Index to Scientific & Technical Proceedings (ISTP CDROM version / ISI Proceedings)
The main aim of the symposium on the hearing system is to provide a forum in which data, ideas and models from both the physiological and psychoacoustical standpoints can be presented and discussed. Apart from those areas traditionally covered by such meetings, two areas with important recent advances have been included, viz, development and regeneration. The present volume will be of interest to all scientists working in the field of auditory research.
The last decade revealed to auditory researchers that hair cells can not only detect and process mechanical energy, but are also able to produce it. Thanks to the active hair cell, ears can produce otoacoustic emissions. This book gives the newest insights into the biophysics and physiology of individual hair cells and integral hair cell systems such as the inner ear and the lateral line organ. Contents: Some Like It Active (E de Boer); Spontaneous Otoacoustic Emissions from a Bird: A Preliminary Report (G Manley & G Taschenberger); Otoacoustic Emissions from a Nonlinear, Active Model of Cochl.
Symposium held in 1999 near Sendai in Japan.
The workshop brought together experts in genetics, molecular and cellular biology, physiology, engineering, physics, mathematics, audiology and medicine to present current work and to review the critical issues of inner ear function. A special emphasis of the workshop was on analytical model based studies. Experimentalists and theoreticians thus shared their points of view. The topics ranged from consideration of the hearing organ as a system to the study and modeling of individual auditory cells including molecular aspects of function. Some of the topics in the book are: motor proteins in hair cells; mechanical and electrical aspects of transduction by motor proteins; function of proteins in stereocilia of hair cells; production of acoustic force by stereocilia, mechanical properties of hair cells and the organ of Corti; mechanical vibration of the organ of Corti; wave propagation in tissue and fluids of the inner ear; sound amplification in the cochlea; critical oscillations; cochlear nonlinearity, and mechanisms for the production of otoacoustic emissions. This book will be invaluable to researchers and students in auditory science.
Knowledge about the structure and function of the inner ear is vital to an understanding of vertebrate hearing. This volume presents a detailed overview of the mammalian cochlea from its anatomy and physiology to its biophysics and biochemistry. The nine review chapters, written by internationally distinguished auditory researchers, provide a detailed and unified introduction to sound processing in the cochlea and the steps by which the ensuing signals are prepared for the central nervous system.
The first volume in The Oxford Handbook of Auditory Science, The Ear serves both as an introduction and as a reference work for anyone interested in how 'hearing' happens. It will be a valuable resource, for anyone interested in the ongoing challenge, and adventure, of understanding the mysteries of the ear.
Signal Processing in Auditory Neuroscience: Temporal and Spatial Features of Sound and Speech discusses how the physical attributes of different sounds manifest in neural signals and how to tease-apart their different influences. It includes EEG/MEG as additional variables to be considered when studying neural mechanisms of auditory processing in general, specifically in speech. - Focuses on signal processing in human auditory-neuroscience - Contains information that will be useful to researchers using a MEG/EEG recording of brain activity to study neural mechanisms of auditory processing and speech - Gives an important overview and methodological background for techniques that are useful in human auditory-neuroscience