- ISBN: 9781573312189 | 1573312185
- Cover: Paperback
- Copyright: 5/1/1999
| Foreword | p. xi |
| Tribute to Volker Henn | p. xiii |
| Basic Mechanisms of Otolith Processing | |
| Otolith Ocular Reflex Function of the Tangential Nucleus in Teleost Fish | p. 1 |
| Stimulus Processing by Type II Hair Cells in the Mouse Utricle | p. 15 |
| The Planes of the Utricular and Saccular Maculae of the Guinea Pig | p. 27 |
| Miniature EPSPs and Sensory Encoding in the Primary Afferents of the Vestibular Lagena of the Toadfish, Opsanus tau | p. 35 |
| Otolith Processing in the Vestibular Nuclei and Vestibulocerebellum | |
| A Review of Otolith Pathways to Brainstem and Cerebellum | p. 51 |
| Signal Processing Related to the Vestibulo-Ocular Reflex during Combined Angular Rotation and Linear Translation of the Head | p. 65 |
| Otolith Processing in the Deep Cerebellar Nuclei | p. 81 |
| Control of Spatial Orientation of the Angular Vestibulo-Ocular Reflex by the Nodulus and Uvula of the Vestibulocerebellum | p. 94 |
| The Linear Vestibulo-Ocular Reflex and Otolith/Canal Interactions | |
| Characteristics of the VOR in Response to Linear Acceleration | p. 123 |
| Functional Organization of Primate Translational Vestibulo-Ocular Reflexes and Effects of Unilateral Labyrinthectomy | p. 136 |
| Intertial Processing of Vestibulo-Ocular Signals | p. 148 |
| Cross-Striolar and Commissural Inhibition in the Otolith System | p. 162 |
| Human Ocular Counterrolling During Roll-Tilt and Centrifugation | p. 173 |
| Canal and Otolith Afferent Activity Underlying Eye Velocity Responses to Pitching While Rotating | p. 181 |
| Clinical Implications of Otolith Function | |
| Clinical Testing of Otolith Function | p. 195 |
| Directional Abnormalities of Vestibular and Optokinetic Responses in Cerebellar Disease | p. 205 |
| Assessing Otolith Function by the Subjective Visual Vertical | p. 221 |
| Horizontal Linear Vestibulo-Ocular Reflex Testing in Patients with Peripheral Vestibular Disorders | p. 232 |
| Cortical Processing of Otolith Information | |
| Vestibular-Pursuit Interactions: Gaze-Velocity and Target-Velocity Signals in the Monkey Frontal Eye Fields | p. 248 |
| Short-Latency Visual Stabilization Mechanisms that Help to Compensate for Translational Disturbances of Gaze | p. 260 |
| Linear Vestibular Self-Motion Signals in Monkey Medial Superior Temporal Area | p. 272 |
| The Contributions of Vestibular Signals to the Representations of Space in the Posterior Parietal Cortex | p. 282 |
| The Vestibular Cortex: Its Locations, Functions, and Disorders | p. 293 |
| Spatial Orientation | |
| Cortical Areas Activated by Bilateral Galvanic Vestibular Stimulation | p. 313 |
| The Interaction of Otolith and Proprioceptive Information in the Perception of Verticality: The Effects of Labyrinthine and CNS Disease | p. 324 |
| The Role of the Otoliths in Perception of the Vertical and in Path Integration | p. 334 |
| Replication of Passive Whole-Body Linear Displacements from Inertial Cues: Facts and Mechanisms | p. 345 |
| The Otoliths and Space | |
| Artificial Gravity Considerations for a Mars Exploration Mission | p. 367 |
| Poster Papers | |
| The Role of Somatosensory Input for the Perception of Verticality | p. 379 |
| Otolith Vestibular-Evoked Potentials in Humans: Intensity, Direction of Acceleration (Z+, Z-), and BESA Modeling of Generators | p. 384 |
| Measuring the Otolith-Ocular Response by Means of Unilatral Radial Acceleration | p. 387 |
| Saccular Dysfunction in Meniere's Patients: A Vestibular-Evoked Myogenic Potential Study | p. 392 |
| VOR Gain Modulation in the Monkey Due to Convergence of Otolith and Semicircular Canal Afferences During Eccentric Sinusoidal Rotation | p. 398 |
| An Alternative Approach to the Central Processing of Canal and Otolith Signals | p. 402 |
| Otolith Signal Processing and Motion Sickness | p. 406 |
| Otolith-Canal Interaction During Pitch While Rotating | p. 410 |
| Phase Adaptation of the Linear Vestibulo-Ocular Reflex | p. 414 |
| Separation Between On- and Off-Center Passive Motion in Darkness | p. 417 |
| Development of Synaptic Innervation in the Rodent Utricle | p. 422 |
| Human Gaze Stabilization for Voluntary Off-Centric Head Rotations | p. 426 |
| A Simple Model of Vestibular Canal-Otolith Signal Fusion | p. 430 |
| Centrifugal Force Affects Perception but not Nystagmus in Passive Rotation | p. 435 |
| Oculomotor, Postural, and Perceptual Asymmetries Associated with a Common Cause: Craniofacial Asymmetries and Asymmetries in Vestibular Organ Anatomy | p. 439 |
| Role of Otoliths in Spatial Orientation During Passive Travel in a Curve | p. 447 |
| Comparison of Tilt Estimates Based on Time Settings, Saccadic Pointing, and Verbal Reports | p. 451 |
| Vestibular Projections in the Human Cortex | p. 455 |
| Spatial Properties of Otolith Units Recorded in the Vestibular Nuclei | p. 458 |
| Index of Contributors | p. 463 |
| Table of Contents provided by Syndetics. All Rights Reserved. |
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