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Informationen zum Autor Andrew Reid and Robert Marshbanks are the authors of Intracranial and Inner Ear Physiology and Pathophysiology, published by Wiley. Klappentext This book discusses the following topics: intracranial and inner fluid interactions the endolymph/perilymph/cerebrospinal fluid and associated disorders; non-invasive measurement of intracranial and inner fluid pressures; clinical aspects with particular reference to symptomatology, diagnosis and treatment; comparative fluid models. Zusammenfassung This work is based on papers presented at the Second International Conference on Intracranial and Inner Ear Fluids: Basic Aspects and Clinical Applications. It covers such areas as non-invasive measurement of intracranial and inner fluid pressures! and comparative fluid models. Inhaltsverzeichnis Foreword. Preface. Part 1 Intracranial Physiology. Chapter 1 The anatomy and physiology of intracranial fluids - MB Segal. Chapter 2 Hydromechanics of the intracranial and labyrinthine fluids - experimental study in cats - B Carlborg and KS Konradsson. Chapter 3 Dynamics of inner ear pressure change caused by cerebrospinal fluid pressure manipulation in guinea pigs - EO Thalen, HP Wit, JM Segenhout and FWJ Albers. Chapter 4 CSFand posture effects on transient evoked otocoustic emissions - pilot study - MA Ferguson, AC Davis and EA Lovell. Part 2 Intracranial Pathophysiology. Chapter 5 Pathophysiology of the cerebrospinal and cerebrovascular circulations - JD Pickard, S Piechnik, P Smielewski, PJ Kirkpatrick and M Czosnyka. Chapter 6 Intraoperative neurophysiologic monitoring in skull base operations - AR Moller. Chapter 7 Neurotolotgic manifestations of intracranial hypertension - A Sismanis. Chapter 8 Idiopathic normal pressure hydrocephalus: primary disorder of CSF absorption or parenchymal cerebral disease: The relevance of vascular risk factors and cerebral white matter lesions - KR Krauss. Chapter 9 Influence on the auditory system of cerebrospinal fluid loss: clinical and experimental results - A Walsted. Chapter 10 OAE and TMD recordings in ICP changes - A Ernst, T Lernarz and K Weckbecker. Chapter 11 A review of the management and current methods of investigating intracranial pressure in shunted hydrocephalics and an introduction to the tympanic membrane displacemernt test - M Samuel, RJ Marchbanks and DM Burge. Chapter 12 The application of the tympanic membrane displacement (TMD) test as part of the clinical service for hydrocephalus patients - S Flynn, RJ Marchbanks and D Burge. Chapter 13 Quantitative assessment of intracranial pressure by the tympanic memberane displacemtn test in patients with shunted hydrocephalus - M Samuel, DM Burge and RJ Marchbanks. Part 3 Inner Ear Physiology Chapter 14 Physical processes underlying homeostasis of cochlear endolymph - AN Salt and JE DeMott. Chapter 15 Cellular mechanisms of volume control in the labyrinth - P Wangemann. Chapter 16 Non-invasive perilymphatic pressure measurements using the MMS-10 Tympanic Displacement Analyser in patients with Meniere's disease - HJ Rosingh, HP Wit and FWJ Albers. Chapter 17 Modelling labyrinthine fluid dynamics - JC Andrews, D Strelioff, M Bergsneider and D Becker. Chapter 18 The effect of changes in cochlear fluid pressure on audiological measurements - AJ Phillips, GB Farrell and ARD Thornton. Chapter 19 Ionic transports in the endolymphatic sac of the guinea pig - V Couloigner, M Teixeira, P Hulin, O Sterkers, G Planelles and E Ferrary. Chapter 20 Beta-trace protein in human perilymph - G Bachmann, SE Baldus, M Nekic and O Mitchell. Chapter 21 Characteri...
