References
- Baloh R, Honrubia V. Clinical neurophysiology of the vestibular system3rd edn. Oxford University Press, Oxford 2001
- Galati G, Pappata S, Pantano P, Lenzi GL, Samson Y, Pizzamiglio L. Cortical control of optokinetic nystagmus in humans: a positron emission tomography study. Exp Brain Res 1999; 126: 149–59
- Dieterich M, Bense S, Stephan T, Yousry TA, Brandt T. fMRI signal increases and decreases in cortical areas during small-field optokinetic stimulation and central fixation. Exp Brain Res 2003; 148: 117–27
- Konen CS, Kleiser R, Seitz RJ, Bremmer F. An fMRI study of optokinetic nystagmus and smooth-pursuit eye movements in humans. Exp Brain Res 2005; 165: 203–16
- Bense S, Janusch B, Schlindwein P, Bauermann T, Vucurevic G, Brandt T, et al. Direction-dependent visual cortex activation during horizontal optokinetic stimulation (fMRI study). Hum Brain Mapp 2006; 27: 296–305
- Darby DG, Nobre AC, Thangaraj V, Edelman R, Mesulam MM, Warach S. Cortical activation in the human brain during lateral saccades using EPISTAR functional magnetic resonance imaging. Neuroimage 1996; 3: 53–62
- Dieterich M, Bucher SF, Seelos KC, Brandt T. Horizontal or vertical optokinetic stimulation activates visual motion-sensitive ocular motor and vestibular cortex areas with right hemispheric dominance. An fMRI study. Brain 1998; 121: 1479–95
- Kimmig H, Greenlee MW, Gondan M, Schira M, Kassubek J, Mergner T. Relationship between saccadic eye movements and cortical activity as measured by fMRI: quantitative and qualitative aspects. Exp Brain Res 2001; 141: 184–94
- Lencer R, Nagel M, Sprenger A, Zapf S, Erdmann C, Heide W, et al. Cortical mechanisms of smooth pursuit eye movements with target blanking. An fMRI study. Eur J Neurosci 2004; 19: 1430–6
- Tanabe J, Tregellas J, Miller D, Ross RG, Freedman R. Brain activation during smooth-pursuit eye movements. Neuroimage 2002; 17: 1315–24
- Dieterich M, Bucher SF, Seelos KC, Brandt T. Cerebellar activation during optokinetic stimulation and saccades. Neurology 2000; 54: 148–55
- Bucher SF, Dieterich M, Seelos KC, Brandt T. Sensorimotor cerebral activation during optokinetic nystagmus. A functional MRI study. Neurology 1997; 49: 1370–7
- Friberg L, Olsen TS, Roland PE, Paulson OB, Lassen NA. Focal increase of blood flow in the cerebral cortex of man during vestibular stimulation. Brain 1985; 108: 609–23
- Grüsser OJ, Pause M, Schreiter U. Localization and responses of neurones in the parieto-insular vestibular cortex of awake monkeys (Macaca fascicularis). J Physiol 1990; 430: 537–57
- Bottini G, Sterzi R, Paulesu E, Vallar G, Cappa SF, Erminio F, et al. Identification of the central vestibular projections in man: a positron emission tomography activation study. Exp Brain Res 1994; 99: 164–9
- Naito Y, Tateya I, Hirano S, Inoue M, Funabiki K, Toyoda H, et al. Cortical correlates of vestibulo-ocular reflex modulation: a PET study. Brain 2003; 26: 1562–78
- Brandt T, Bartenstein P, Janek A, Dieterich M. Reciprocal inhibitory visual-vestibular interaction. Visual motion stimulation deactivates the parieto-insular vestibular cortex. Brain 1998; 121: 1749–58
- Brandt T, Glasauer S, Stephan T, Bense S, Yousry TA, Deutschlander A, et al. Visual-vestibular and visuovisual cortical interaction: new insights from fMRI and pet. Ann N Y Acad Sci 2002; 956: 230–41
- Goycoolea M, Mena I, Neubauer S. Functional studies of the human auditory pathway after monaural stimulation with pure tones. Establishing a normal database. Acta Otolaryngol 2005; 125: 513–19