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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 special issue collects our current knowledge of the mechanical processing of acoustic signals by the cochlea and its containing structures. Many workers in diverse disciplines in otology use the facts from cochlear mechanics for the interpretation of their results. Presented here for the first time is the development of a three-dimensional mechanical model of the curved cochlea including fluid-structure couplings. An important approach for future cochlear modeling is shown by the provision of geometrical data for the input of three-dimensional finite element models by microtomographic imaging. A remarkable article tries to demonstrate a connection between outer hair cell mechanics and the complex phenomenon of tinnitus and will be of special interest for stress engineers. Owing to its strong interdisciplinarity, this issue is not only intended for biophysicists, ENT clinicians and audiologists but also for radiologists, biomechanical engineers and computer engineers.
IUTAM/ICA Symposium, Delft, July 1983
This SHAR volume serves to expand, supplement, and update the original "Cochlea" volume in the series. The book aims to highlight the power of diverse modern approaches in cochlear research by focusing on advances in those fields over the last two decades. It also provides insights into where cochlear research is going, including new hearing prostheses for the deaf that will most likely soon enter the phase of clinical trials. The book will appeal to a broad, interdisciplinary readership, including neuroscientists and clinicians in addition to the more specific auditory community.
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. Sample Chapter(s). Chapter 1: Medial-Olivocochlear-Efferent Effects on Basilar-Membrane and Auditory-Nerve Responses to Clicks: Evidence for a New Motion within the Cochlea (1,013 KB). Contents: Whole Organ Mechanics: Medial-Olivocochlear-Efferent Effects on Basilar-Membrane and Auditory-Nerve Responses to Clicks: Evidence for a New Motion Within the Cochlea (J J Guinan Jr et al.); Atomic Force Microscopic Imaging of the Intracellular Membrane Surface of Prestin-Expressing Chinese Hamster Ovary Cells (H Wada et al.); Biomechanics of Dolphin Hearing: A Comparison of Middle and Inner Ear Stiffness with Other Mammalian Species (B S Miller et al.); Hair Cells: An Experimental Preparation of the Mammalian Cochlea That Displays Compressive Nonlinearity In Vitro (A J Hudspeth & D K Chan); OC Area Change ParadoxOCO in Outer Hair Cells Membrane Motor (K H Iwasa); Outer Hair Cell Mechanics are Altered by Developmental Changes in Lateral Wall Protein Content (H C Jensen-Smith & R Hallworth); Stereocilia: Signal Transformation by Mechanotransducer Channels of Mammalian Outer Hair Cells (R Fettiplace et al.); The Cochlear Amplifier: Is it Hair Bundle Motion of Outer Hair Cells? (S Jia et al.); Emissions: Comparative Mechanisms of Auditory Function: Ground Sound Detection by Golden Moles (P M Narins); The Biophysical Origin of Otoacoustic Emissions (J H Siegel); A Comparative Study of Evoked Otoacoustic Emissions in Geckos and Humans (C Bergevin et al.); Cochlear Models: The Cochlea Box Model Once Again: Improvements and New Results (R Nobili & A Vetein k); The Evolution of Multi-compartment Cochlear Models (A E Hubbard et al.); and other papers. Readership: Graduate students and academics in medicine and otolaryngology; ear, nose and throat specialists; neuroscientists; neurobiologists."
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 Institute of Medicine carried out a study mandated by Congress and sponsored by the Department of Veterans Affairs to provide an assessment of several issues related to noise-induced hearing loss and tinnitus associated with service in the Armed Forces since World War II. The resulting book, Noise and Military Service: Implications for Hearing Loss and Tinnitus, presents findings on the presence of hazardous noise in military settings, levels of noise exposure necessary to cause hearing loss or tinnitus, risk factors for noise-induced hearing loss and tinnitus, the timing of the effects of noise exposure on hearing, and the adequacy of military hearing conservation programs and audiometric testing. The book stresses the importance of conducting hearing tests (audiograms) at the beginning and end of military service for all military personnel and recommends several steps aimed at improving the military services' prevention of and surveillance for hearing loss and tinnitus. The book also identifies research needs, emphasizing topics specifically related to military service.
This is an unparalleled modern handbook reflecting the richly interdisciplinary nature of acoustics edited by an acknowledged master in the field. The handbook reviews the most important areas of the subject, with emphasis on current research. The authors of the various chapters are all experts in their fields. Each chapter is richly illustrated with figures and tables. The latest research and applications are incorporated throughout, including computer recognition and synthesis of speech, physiological acoustics, diagnostic imaging and therapeutic applications and acoustical oceanography. An accompanying CD-ROM contains audio and video files.