J Goyens & P Aerts. (2019) Why the semicircular canals are not stimulated by linear accelerations. Bioinspiration & Biomimetics 14:5, pages 056004.
Crossref
L. Rincon-Gonzalez, L. P. J. Selen, K. Halfwerk, M. Koppen, B. D. Corneil & W. P. Medendorp. (2016) Decisions in motion: vestibular contributions to saccadic target selection. Journal of Neurophysiology 116:3, pages 977-985.
Crossref
R. J. Menzies, S. J. Rogers, A. M. Phillips, E. Chiarovano, C. de Waele, F. A. J. Verstraten & H. MacDougall. (2016) An objective measure for the visual fidelity of virtual reality and the risks of falls in a virtual environment. Virtual Reality 20:3, pages 173-181.
Crossref
Patrick A. Armstrong, Scott J. Wood, Naoki Shimizu, Kael Kuster, Adrian Perachio & Tomoko Makishima. (2015) Preserved otolith organ function in caspase-3-deficient mice with impaired horizontal semicircular canal function. Experimental Brain Research 233:6, pages 1825-1835.
Crossref
L. Manzari, A. M. Burgess & I. S. Curthoys. (2012) Does unilateral utricular dysfunction cause horizontal spontaneous nystagmus?. European Archives of Oto-Rhino-Laryngology 269:11, pages 2441-2445.
Crossref
Laurence R. Young. (2011) Optimal estimator models for spatial orientation and vestibular nystagmus. Experimental Brain Research 210:3-4, pages 465-476.
Crossref
Stefano Ramat & Benjamin T. Crane. 2010. Vertigo and Imbalance: Clinical Neurophysiologyof the Vestibular System. Vertigo and Imbalance: Clinical Neurophysiologyof the Vestibular System
217
229
.
Andrew H. Clarke. 2008. Der Gleichgewichtssinn. Der Gleichgewichtssinn
3
15
.
S. H. Seidman. (2007) Translational motion perception and vestiboocular responses in the absence of non-inertial cues. Experimental Brain Research 184:1, pages 13-29.
Crossref
K. Helling & A. H. Clarke. 2007. Schwindel. Schwindel
23
35
.
Daniel M. Merfeld, Sukyung Park, Claire Gianna-Poulin, F. Owen Black & Scott Wood. (2005)
Vestibular Perception and Action Employ Qualitatively Different Mechanisms. I. Frequency Response of VOR and Perceptual Responses During
Translation
and
Tilt
. Journal of Neurophysiology 94:1, pages 186-198.
Crossref
Y. Uchino, M. Sasaki, H. Sato, R. Bai & E. Kawamoto. (2005) Otolith and canal integration on single vestibular neurons in cats. Experimental Brain Research 164:3, pages 271-285.
Crossref
Jun Maruta, John I. Simpson, Theodore Raphan & Bernard Cohen. (2005) Orienting eye movements and nystagmus produced by translation while rotating (TWR). Experimental Brain Research 163:3, pages 273-283.
Crossref
Dora E. Angelaki. (2004) Eyes on Target: What Neurons Must do for the Vestibuloocular Reflex During Linear Motion. Journal of Neurophysiology 92:1, pages 20-35.
Crossref
Angela Deutschländer, Sandra Bense, Thomas Stephan, Markus Schwaiger, Marianne Dieterich & Thomas Brandt. (2004) Rollvection versus linearvection: Comparison of brain activations in PET. Human Brain Mapping 21:3, pages 143-153.
Crossref
Bernard Cohen & Theodore Raphan. 2004. The Vestibular System. The Vestibular System
235
285
.
Fumiyuki Goto, Hui Meng, Rishu Bai, Hitoshi Sato, Midori Imagawa, Mitsuyoshi Sasaki & Yoshio Uchino. (2003) Eye movements evoked by the selective stimulation of the utricular nerve in cats. Auris Nasus Larynx 30:4, pages 341-348.
Crossref
L. H. Zupan & D. M. Merfeld. (2003) Neural Processing of Gravito-Inertial Cues in Humans. IV. Influence of Visual Rotational Cues During Roll Optokinetic Stimuli. Journal of Neurophysiology 89:1, pages 390-400.
Crossref
Daniel M. Merfeld & Lionel H. Zupan. 2003. Levels of Perception. Levels of Perception
341
373
.
Naomi Katayama & Shigeo Mori. (2001) Directional asymmetry of nystagmus elicitation in humans during step and sinusoidal modes of lateral linear acceleration. Neuroscience Research 41:1, pages 97-105.
Crossref
D. M. Merfeld, L. H. Zupan & C. A. Gifford. (2001) Neural Processing of Gravito-Inertial Cues in Humans. II. Influence of the Semicircular Canals During Eccentric Rotation. Journal of Neurophysiology 85:4, pages 1648-1660.
Crossref
Timothy A. Jones & Sherri M. Jones. (1999) Short latency compound action potentials from mammalian gravity receptor organs. Hearing Research 136:1-2, pages 75-85.
Crossref
BERNHARD J. M. HESS & DORA E. ANGELAKI. (1999) Inertial Processing of Vestibulo-Ocular Signals. Annals of the New York Academy of Sciences 871:1 OTOLITH FUNCT, pages 148-161.
Crossref
Shigeo Mori & Naomi Katayama. (1999) Current studies using a linear accelerator in Japan. Eye Movements Induced by Linear Acceleration in Humans.. Biological Sciences in Space 13:1, pages 3-8.
Crossref
Dora E. Angelaki. (1998) Three-Dimensional Organization of Otolith-Ocular Reflexes in Rhesus Monkeys. III. Responses to Translation. Journal of Neurophysiology 80:2, pages 680-695.
Crossref
O Kawakami, H Sudoh, Y Koike, S Mori, G Sobue & S Watanabe. (1998) Control of upright standing posture during low-frequency linear oscillation. Neuroscience Research 30:4, pages 333-342.
Crossref
F. Schmäl & W. Stoll. 1998. Differentialdiagnose Schwindel. Differentialdiagnose Schwindel
57
70
.
THEODORE RAPHAN, SUSAN WEARNE & BERNARD COHEN. (1996) Modeling the Organization of the Linear and Angular Vestibulo-Ocular Reflexes. Annals of the New York Academy of Sciences 781:1 Lipids and Sy, pages 348-363.
Crossref
R.S. Allison, M. Eizenman & B.S.K. Cheung. (1996) Combined head and eye tracking system for dynamic testing of the vestibular system. IEEE Transactions on Biomedical Engineering 43:11, pages 1073-1082.
Crossref
F.E. Guedry. (1996) Spatial orientation perception and reflexive eye movements—A perspective, an overview, and some clinical implications. Brain Research Bulletin 40:5-6, pages 505-512.
Crossref
A. H. Clarke. 1995. Teil I: Referate. Teil I: Referate
117
153
.
D.E. Angelaki. (1993) Generation of two-dimensional spatial and temporal properties through spatiotemporal convergence between one-dimensional neurons. IEEE Transactions on Biomedical Engineering 40:7, pages 686-692.
Crossref
Dora E. Angelaki. (1993) Spatial and temporal coding in single neurons. Biological Cybernetics 69:2, pages 147-154.
Crossref
Dora E. Angelaki. (1992) Detection of rotating gravity signals. Biological Cybernetics 67:6, pages 523-533.
Crossref
JOSEPH M. R. FURMAN & ROBERT W. BALOH. (1992) Otolith-Ocular Testing in Human Subjects. Annals of the New York Academy of Sciences 656:1 Sensing and C, pages 431-451.
Crossref
Noriaki Takeda, Makoto Igarashi, Izumi Koizuka, Se-Yong Chae & Toru Matsunaga. (1991) Vestibulo-ocular reflex in eccentric rotation in squirrel monkeys. American Journal of Otolaryngology 12:4, pages 185-190.
Crossref
Dora E. Angelaki & John H. Anderson. (1991) The vestibulo-ocular reflex in the cat during linear acceleration in the sagittal plane. Brain Research 543:2, pages 347-350.
Crossref
Frederick A. Miles. 1991. Presbyopia Research. Presbyopia Research
113
125
.
B. J. M. Hess & N. Dieringer. (2006) Spatial Organization of the Maculo‐Ocular Reflex of the Rat: Responses During Off‐Vertical Axis Rotation. European Journal of Neuroscience 2:11, pages 909-919.
Crossref
. 1990. Handbook of Human Vibration. Handbook of Human Vibration
863
951
.
U. SchwarzC. BusettiniF. A. Miles. (1989) Ocular Responses to Linear Motion Are Inversely Proportional to Viewing Distance. Science 245:4924, pages 1394-1396.
Crossref
C. Darlot, P. Denise, J. Droulez, B. Cohen & A. Berthoz. (1988) Eye movements induced by off-vertical axis rotation (OVAR) at small angles of tilt. Experimental Brain Research 73:1, pages 91-105.
Crossref
A. Berthoz, I. Israël, T. Viéville & D. Zee. (1987) Linear head displacement measured by the otoliths can be reproduced through the saccadic system. Neuroscience Letters 82:3, pages 285-290.
Crossref
T. C. Hain. (1986) A model of the nystagmus induced by off vertical axis rotation. Biological Cybernetics 54:4-5, pages 337-350.
Crossref
Michael A. Gresty & Adolfo M. Bronstein. (1986) Otolith stimulation evokes compensatory reflex eye movements of high velocity when linear motion of the head is combined with concurrent angular motion. Neuroscience Letters 65:2, pages 149-154.
Crossref
Jay M. Goldberg & César Fernández. 2011. Comprehensive Physiology. Comprehensive Physiology
977
1022
.
Michael Gresty. (2018) Oculomotor Abnormalities Related to Otolith Function: Discussion Paper. Journal of the Royal Society of Medicine 76:10, pages 859-862.
Crossref
B. R. Chambers, J. J. Ell & M. A. Gresty. (2004) Case of downbeat nystagmus influenced by otolith stimulation. Annals of Neurology 13:2, pages 204-207.
Crossref
Charles M. Oman. Space Motion Sickness and Vestibular Experiments in Spacelab. Space Motion Sickness and Vestibular Experiments in Spacelab.
Alain Berthoz & Jaques Droulez. 1982. Tutorials on Motion Perception. Tutorials on Motion Perception
157
199
.
Takashi Tokita, Hideo Miyata, Michihiro Masaki & Sadahide Ikeda. (1981) DYNAMIC CHARACTERISTICS OF THE OTOLITHIC OCULOMOTOR SYSTEM. Annals of the New York Academy of Sciences 374:1 Vestibular an, pages 56-68.
Crossref
Albert F. Fuchs. 1981. Motor Coordination. Motor Coordination
303
366
.
G R Barnes. (1980) Vestibular control of oculomotor and postural mechanisms. Clinical Physics and Physiological Measurement 1:1, pages 3-40.
Crossref
J. Lannou, L. Cazin & K. -F. Hamann. (1980) Response of central vestibular neurons to horizontal linear acceleration in the rat. Pfl�gers Archiv European Journal of Physiology 385:2, pages 123-129.
Crossref
Manning J. Correia & Fred E. GuedryJr.Jr.. 1978. Sensory Integration. Sensory Integration
311
351
.
Makoto Igarashi, Masahiro Takahashi, Millard F. Reschke & William K. Wright. (1977) Effect of otolith end organ ablation on pendular rotation nystagmus in squirrel monkeys. Archives of Oto-Rhino-Laryngology 217:2, pages 183-188.
Crossref
Noburu Sugie. (1976) Investigation of visual perception of position based on the reafferent theory. Biological Cybernetics 21:1, pages 17-22.
Crossref
A. J. Benson, N. Bischof, W. E. Collins, A. R. Fregly, A. Graybiel, F. E. Guedry, W. H. Johnson, L. B. W. Jongkees, H. H. Kornhuber, R. Mayne, D. L. Meyer, E. Peitersen, W. Precht & K. P. SchaeferA. J. Benson. 1974. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations
281
320
.
A. J. Benson, N. Bischof, W. E. Collins, A. R. Fregly, A. Graybiel, F. E. Guedry, W. H. Johnson, L. B. W. Jongkees, H. H. Kornhuber, R. Mayne, D. L. Meyer, E. Peitersen, W. Precht & K. P. SchaeferR. Mayne. 1974. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations
493
580
.
A. J. Benson, N. Bischof, W. E. Collins, A. R. Fregly, A. Graybiel, F. E. Guedry, W. H. Johnson, L. B. W. Jongkees, H. H. Kornhuber, R. Mayne, D. L. Meyer, E. Peitersen, W. Precht & K. P. SchaeferW. H. Johnson & L. B. W. Jongkees. 1974. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations
389
411
.
A. J. Benson, N. Bischof, W. E. Collins, A. R. Fregly, A. Graybiel, F. E. Guedry, W. H. Johnson, L. B. W. Jongkees, H. H. Kornhuber, R. Mayne, D. L. Meyer, E. Peitersen, W. Precht & K. P. SchaeferFred E. GuedryJr.Jr.. 1974. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations. Vestibular System Part 2: Psychophysics, Applied Aspects and General Interpretations
3
154
.
L. B. W. Jongkees. (1969) Physiologie und pathophysiologie des VestibularorganesOn normal and pathological function of the vestibular organ. Archiv f�r Klinische und Experimentelle Ohren- Nasen- und Kehlkopfheilkunde 194:1, pages 1-110.
Crossref
H.B. PERLMAN & J.R. LINDSAY. 1967. Progress in Neurology and Psychiatry. Progress in Neurology and Psychiatry
190
195
.