Dominance for Vestibular Cortical Function in the Non-dominant Hemisphere

Dieterich, Marianne; Bense, Sandra; Lutz, Steffi; Drzezga, Alexander; Stephan, Thomas; Bartenstein, Peter; Brandt, Thomas

doi:10.1093/cercor/13.9.994

Cited by 477 publications

(479 citation statements)

References 69 publications

Supporting

Mentioning

397

Contrasting

Unclassified

Order By: Relevance

“…[14][15][16][17] These data have implicated a widespread distributed network in the frontal and tempo-parietal areas that strongly overlaps with the neural networks found for spatial attention, 18 with a right hemisphere dominance. 19,20 Behavioural observations in patients with posterior parietal cortical lesions provide further support for the suggested overlapping neural networks. Posterior parietal cortical lesions (particularly on the right) typically result in spatial neglect, a disorder of spatial attention.…”

Section: Cortical Processing and The Vormentioning

confidence: 61%

A brief review of the clinical anatomy of the vestibular-ocular connections—how much do we know?

Bronstein

Patel

Arshad

2014

Eye

View full text Add to dashboard Cite

The basic connectivity from the vestibular labyrinth to the eye muscles (vestibular ocular reflex, VOR) has been elucidated in the past decade, and we summarise this in graphic format. We also review the concept of 'velocity storage', a brainstem integrator that prolongs vestibular responses. Finally, we present new discoveries of how complex visual stimuli, such as binocular rivalry, influence VOR processing. In contrast to the basic brainstem circuits, cortical vestibular circuits are far from being understood, but parietal-vestibular nuclei projections are likely to be involved.

show abstract

Section: Cortical Processing and The Vormentioning

confidence: 61%

A brief review of the clinical anatomy of the vestibular-ocular connections—how much do we know?

Bronstein

Patel

Arshad

2014

Eye

View full text Add to dashboard Cite

show abstract

“…Congruently, epileptic patients with vestibular aurae suffer from lesions surrounding the superior temporal gyrus and the temporoparietal cortex [99,107]. This location has also been confirmed by functional neuroimaging studies in healthy subjects using caloric and galvanic stimulation of the peripheral vestibular system revealing unanimously predominant activations centered on the TPJ and insula [6,19,20,32,39,46,47,50,51,70,72,85,94,95,110,112,118] with activations in the superior temporal gyrus, posterior insula, inferior parietal lobule (angular and supramarginal gyri), and postcentral gyrus. Although many regions surrounding the TPJ/insula have been found activated, opinions concerning the exact location of the human homologue of the PIVC differ (Fig.…”

Section: The Vestibular Cortexmentioning

confidence: 80%

“…In healthy subjects, sense of body ownership and self-attribution of actions are also more specifically related to right posterior insula activity [49,115]. Also, there is an overall right hemispheric dominance for the vestibular cortex [39,46,50,51,112], and the integration of vestibular and proprioceptive cues seems to involve particularly the right TPJ (see Bottini et al [19]). In the case of autoscopic hallucinations, lesion sites are mostly located in right parieto-occipital and temporo-occipital cortex with less involvement of the TPJ [13,15].…”

Section: Linking Abnormal Body Ownership and Embodiment At The Multismentioning

confidence: 98%

“…Yen Pik Sang et al [120] reported that caloric vestibular stimulations in healthy subjects may induce transient symptoms of depersonalization and derealisation (''body feels strange/different in some ways'', ''feeling of detachment or separation from surroundings'') by a disintegration in personal space and/or disintegration between personal and extrapersonal space. In a PET study on depersonalization, Simeon et al [106] found brain activation changes related to embodiment in regions that have also been shown to be activated by caloric vestibular stimulation, such as the superior temporal gyrus, posterior insula and inferior parietal lobule [19,20,39,47,50,112]. Collectively, these findings suggest that caloric vestibular stimulation interferes with self-processing and embodiment, also inducing symptoms of depersonalization, which share several aspects with out-ofbody experiences [105].…”

Section: Effects Of Natural and Artificial Vestibular Stimulations Onmentioning

confidence: 99%

See 1 more Smart Citation

Body ownership and embodiment: Vestibular and multisensory mechanisms

Lopez

Halje

Blanke

2008

Neurophysiologie Clinique/Clinical Neurophysiology

228

163

View full text Add to dashboard Cite

Summary Body ownership and embodiment are two fundamental mechanisms of selfconsciousness. The present article reviews neurological data about paroxysmal illusions during which body ownership and embodiment are affected differentially: autoscopic phenomena (out-of-body experience, heautoscopy, autoscopic hallucination, feeling-of-a-presence) and the room tilt illusion. We suggest that autoscopic phenomena and room tilt illusion are related to different types of failures to integrate body-related information (vestibular, proprioceptive and tactile cues) in addition to a mismatch between vestibular and visual references. In these patients, altered body ownership and embodiment has been shown to occur due to pathological activity at the temporoparietal junction and other vestibular-related areas arguing for a key importance of vestibular processing. We also review the possibilities of manipulating body ownership and embodiment in healthy subjects through exposition to weightlessness as well as caloric and galvanic stimulation of the peripheral vestibular apparatus. In healthy subjects, disturbed self-processing might be related to interference of vestibular stimulation with vestibular cortex leading to disintegration of bodily information and altered body ownership and embodiment. We finally propose a differential contribution of the vestibular cortical areas to the different forms of altered body ownership and embodiment. Résumé L'attribution du corps propre et de ses éléments constitutifs (body ownership), ainsi que le sentiment d'incarnation (embodiment) -le fait d'habiter ce corps, d'être localisé dans les limites physiques de ce corps -, sont deux éléments fondamentaux de la conscience de soi. Nous faisons ici la synthèse de données issues de la neurologie montrant que des manifestations paroxystiques telles que les phénomènes autoscopiques (expérience de sortie du corps, héautoscopie, hallucination autoscopique, sensation de présence) et l'illusion de bascule de l'environnement (room tilt illusion) se caractérisent par une atteinte différentielle des mécanismes d'attribution du corps propre et du sentiment d'incarnation. Nous faisons l'hypothèse que les différents phénomènes autoscopiques et l'illusion de bascule de l'environnement se caractérisent par différents patrons de déficits d'intégration des informations sensorielles corporelles (informations visuelles, musculaires proprioceptives et tactiles) combinés à une perte de cohérence entre les références visuelles et vestibulaires. Chez les patients souffrant de phénomènes autoscopiques, les déficits d'attribution du corps propre et du sentiment d'incarnation ont été liés à un dysfonctionnement au niveau de la jonction temporopariétale et d'autres régions corticales recevant des informations vestibulaires, suggérant une contribution importante des afférences vestibulaires dans les mécanismes de la conscience de soi. Nous rapportons également des données de la littérature recueillies chez des sujets sains suggérant la possibilité de manipuler l'attribution ...

show abstract

“…There is vestibular dominance in the non-dominant hemisphere and stronger activation occurs in the hemisphere ipsilateral to the stimulated ear [23]. A subsequent human PET study on right-handed patients aVected by right-sided vestibular neuritis showed an activation of the primary vestibular cortex (parieto-insular vestibular cortex-PIVC) on the left side, contralateral to the aVected side, and a deactivation of the supposed "secondary" multisensory vestibular cortex areas on the right side, ipsilateral to the aVected ear [12].…”

Section: Discussionmentioning

confidence: 99%

Cerebral plasticity in acute vestibular deficit

Alessandrini

Napolitano

Bruno

et al. 2009

Eur Arch Otorhinolaryngol

View full text Add to dashboard Cite

The aim of this study was to analyze the eVect of acute vestibular deWcit on the cerebral cortex and its correlation with clinical signs and symptoms. Eight righthanded patients aVected by vestibular neuritis, a purely peripheral vestibular lesion, underwent two brain single photon emission computed tomography (SPECT) in 1 month. The Wrst SPECT analysis revealed reduced blood Xow in the temporal frontal area of the right hemisphere in seven of eight patients, independent of the right/left location of the lesion. The alteration was present always in the right, non-dominant hemisphere and was reversible in some patients 1 month after the onset, together with attenuation of signs and symptoms. It may be hypothesized that the transient reduction of cortical blood Xow and subsequently of cortical activity in the non-dominant hemisphere, also the expression of cerebral plasticity, may serve as a defense mechanism aimed to attenuate the vertigo symptom.

show abstract

Dominance for Vestibular Cortical Function in the Non-dominant Hemisphere

Cited by 477 publications

References 69 publications

A brief review of the clinical anatomy of the vestibular-ocular connections—how much do we know?

A brief review of the clinical anatomy of the vestibular-ocular connections—how much do we know?

Body ownership and embodiment: Vestibular and multisensory mechanisms

Cerebral plasticity in acute vestibular deficit

Contact Info

Product

Resources

About