Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The STEP trials

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.
ADVANCED SEARCH
Log in
Top
Experimental Brain Research
Published in: Experimental Brain Research 2/2011

01-03-2011 | Research Article

Mental transformation abilities in patients with unilateral and bilateral vestibular loss

Authors: Luzia Grabherr, Cyril Cuffel, Jean-Philippe Guyot, Fred W. Mast

Published in: Experimental Brain Research | Issue 2/2011

Login to get access

Abstract

Vestibular information helps to establish a reliable gravitational frame of reference and contributes to the adequate perception of the location of one’s own body in space. This information is likely to be required in spatial cognitive tasks. Indeed, previous studies suggest that the processing of vestibular information is involved in mental transformation tasks in healthy participants. In this study, we investigate whether patients with bilateral or unilateral vestibular loss show impaired ability to mentally transform images of bodies and body parts compared to a healthy, age-matched control group. An egocentric and an object-based mental transformation task were used. Moreover, spatial perception was assessed using a computerized version of the subjective visual vertical and the rod and frame test. Participants with bilateral vestibular loss showed impaired performance in mental transformation, especially in egocentric mental transformation, compared to participants with unilateral vestibular lesions and the control group. Performance of participants with unilateral vestibular lesions and the control group are comparable, and no differences were found between right- and left-sided labyrinthectomized patients. A control task showed no differences between the three groups. The findings from this study substantiate that central vestibular processes are involved in imagined spatial body transformations; but interestingly, only participants with bilateral vestibular loss are affected, whereas unilateral vestibular loss does not lead to a decline in spatial imagery.
Appendix
Available only for authorised users
Literature
Amorim MA, Isableu B, Jarraya M (2006) Embodied spatial transformations: “body analogy” for the mental rotation of objects. J Exp Psychol Gen 135:327–347CrossRefPubMed
Andre JM, Martinet N, Paysant J, Beis JM, Le Chapelain L (2001) Temporary phantom limbs evoked by vestibular caloric stimulation in amputees. Neuropsychiatry Neuropsychol Behav Neurol 14:190–196PubMed
Bense S, Stephan T, Yousry TA, Brandt T, Dieterich M (2001) Multisensory cortical signal increases and decreases during vestibular galvanic stimulation (fMRI). J Neurophysiol 85:886–899PubMed
Bisiach E, Rusconi ML, Vallar G (1991) Remission of somatoparaphrenic delusion through vestibular stimulation. Neuropsychologia 29:1029–1031CrossRefPubMed
Blanke O, Mohr C, Michel CM, Pascual-Leone A, Brugger P, Seeck M, Landis T, Thut G (2005) Linking out-of-body experience and self processing to mental own-body imagery at the temporoparietal junction. J Neurosci 25:550–557CrossRefPubMed
Bohmer A, Mast F (1999a) Assessing otolith function by the subjective visual vertical. Ann N Y Acad Sci 871:221–231CrossRefPubMed
Bohmer A, Mast F (1999b) Chronic unilateral loss of otolith function revealed by the subjective visual vertical during off center yaw rotation. J Vestib Res 9:413–422PubMed
Borel L, Lopez C, Peruch P, Lacour M (2008) Vestibular syndrome: a change in internal spatial representation. Neurophysiol Clin 38:375–389CrossRefPubMed
Brandt T, Dieterich M (1999) The vestibular cortex. Its locations, functions, and disorders. Ann N Y Acad Sci 871:293–312CrossRefPubMed
Brandt T, Schautzer F, Hamilton DA, Bruning R, Markowitsch HJ, Kalla R, Darlington C, Smith P, Strupp M (2005) Vestibular loss causes hippocampal atrophy and impaired spatial memory in humans. Brain 128:2732–2741CrossRefPubMed
Chen-Huang C, McCrea RA (1999) Effects of viewing distance on the responses of vestibular neurons to combined angular and linear vestibular stimulation. J Neurophysiol 81:2538–2557PubMed
Clement G, Fraysse MJ, Deguine O (2009) Mental representation of space in vestibular patients with otolithic or rotatory vertigo. Neuroreport 20:457–461CrossRefPubMed
Creem-Regehr SH, Neil JA, Yeh HJ (2007) Neural correlates of two imagined egocentric transformations. Neuroimage 35:916–927CrossRefPubMed
de Waele C, Baudonniere PM, Lepecq JC, Tran Ba Huy P, Vidal PP (2001) Vestibular projections in the human cortex. Exp Brain Res 141:541–551CrossRefPubMed
Dieterich M, Brandt T (2008) Functional brain imaging of peripheral and central vestibular disorders. Brain 131:2538–2552CrossRefPubMed
Dieterich M, Bense S, Lutz S, Drzezga A, Stephan T, Bartenstein P, Brandt T (2003) Dominance for vestibular cortical function in the non-dominant hemisphere. Cereb Cortex 13:994–1007CrossRefPubMed
Emri M, Kisely M, Lengyel Z, Balkay L, Marian T, Miko L, Berenyi E, Sziklai I, Tron L, Toth A (2003) Cortical projection of peripheral vestibular signaling. J Neurophysiol 89:2639–2646CrossRefPubMed
Grabherr L, Mast FW (2010) Effects of microgravity on cognition: The case of mental imagery. J Vestib Res 20:53–60PubMed
Grabherr L, Karmali F, Bach S, Indermaur K, Metzler S, Mast FW (2007) Mental own-body and body-part transformations in microgravity. J Vestib Res 17:279–287PubMed
Guerraz M, Yardley L, Bertholon P, Pollak L, Rudge P, Gresty MA, Bronstein AM (2001) Visual vertigo: symptom assessment, spatial orientation and postural control. Brain 124:1646–1656CrossRefPubMed
Halmagyi GM, Curthoys IS, Cremer PD, Henderson CJ, Todd MJ, Staples MJ, D’Cruz DM (1990) The human horizontal vestibulo-ocular reflex in response to high-acceleration stimulation before and after unilateral vestibular neurectomy. Exp Brain Res 81:479–490CrossRefPubMed
Hanes DA, McCollum G (2006) Cognitive-vestibular interactions: a review of patient difficulties and possible mechanisms. J Vestib Res 16:75–91PubMed
Hufner K, Hamilton DA, Kalla R, Stephan T, Glasauer S, Ma J, Bruning R, Markowitsch HJ, Labudda K, Schichor C, Strupp M, Brandt T (2007) Spatial memory and hippocampal volume in humans with unilateral vestibular deafferentation. Hippocampus 17:471–485CrossRefPubMed
Inagaki H, Meguro K, Shimada M, Ishizaki J, Okuzumi H, Yamadori A (2002) Discrepancy between mental rotation and perspective-taking abilities in normal aging assessed by Piaget’s three-mountain task. J Clin Exp Neuropsychol 24:18–25CrossRefPubMed
Isaac A, Marks DF, Russell DG (1986) An instrument for assessing imagery of movement: the vividness of movement imagery questionnaire (VMIQ). J Mental Imag 10:23–30
Isableu B, Gueguen M, Fourré B, Giraudet G, Amorim MA (2008) Assessment of visual field dependence: comparison between the mechanical 3D rod-and-frame test developed by Oltman in 1968 with a 2D computer-based version. J Vestib Res 18:239–247PubMed
Le Chapelain L, Beis JM, Paysant J, Andre JM (2001) Vestibular caloric stimulation evokes phantom limb illusions in patients with paraplegia. Spinal Cord 39:85–87CrossRefPubMed
Lenggenhager B, Lopez C, Blanke O (2008) Influence of galvanic vestibular stimulation on egocentric and object-based mental transformations. Exp Brain Res 184:211–221CrossRefPubMed
Leone G, Lipshits M, Gurfinkel V, Berthoz A (1995) Is there an effect of weightlessness on mental rotation of three-dimensional objects? Brain Res Cogn Brain Res 2:255–267CrossRefPubMed
Lobel E, Kleine JF, Leroy-Willig A, Van de Moortele PF, Le Bihan D, Grusser OJ, Berthoz A (1999) Cortical areas activated by bilateral galvanic vestibular stimulation. Ann N Y Acad Sci 871:313–323CrossRefPubMed
Lopez C, Lacour M, Magnan J, Borel L (2006) Visual field dependence-independence before and after unilateral vestibular loss. Neuroreport 17:797–803CrossRefPubMed
Lopez C, Lacour M, Ahmadi AE, Magnan J, Borel L (2007) Changes of visual vertical perception: a long-term sign of unilateral and bilateral vestibular loss. Neuropsychologia 45:2025–2037CrossRefPubMed
Mamoto Y, Yamamoto K, Imai T, Tamura M, Kubo T (2002) Three-dimensional analysis of human locomotion in normal subjects and patients with vestibular deficiency. Acta Otolaryngol 122:495–500CrossRefPubMed
Mast FW, Ganis G, Christie S, Kosslyn SM (2003) Four types of visual mental imagery processing in upright and tilted observers. Brain Res Cogn Brain Res 17:238–247CrossRefPubMed
McCrea RA, Luan H (2003) Signal processing of semicircular canal and otolith signals in the vestibular nuclei during passive and active head movements. Ann N Y Acad Sci 1004:169–182CrossRefPubMed
Parsons LM (1987a) Imagined spatial transformation of one’s body. J Exp Psychol Gen 116:172–191CrossRefPubMed
Parsons LM (1987b) Imagined spatial transformations of one’s hands and feet. Cogn Psychol 19:178–241CrossRefPubMed
Parsons LM(2003) Superior parietal cortices and varieties of mental rotation. Trends Cogn Sci 7:515–517CrossRefPubMed
Peruch P, Borel L, Magnan J, Lacour M (2005) Direction and distance deficits in path integration after unilateral vestibular loss depend on task complexity. Brain Res Cogn Brain Res 25:862–872CrossRefPubMed
Peterka RJ (2002) Sensorimotor integration in human postural control. J Neurophysiol 88:1097–1118PubMed
Ratcliff G (1979) Spatial thought, mental rotation and the right cerebral hemisphere. Neuropsychologia 17:49–54CrossRefPubMed
Rodionov V, Zislin J, Elidan J (2004) Imagination of body rotation can induce eye movements. Acta Otolaryngol 124:684–689CrossRefPubMed
Saimpont A, Pozzo T, Papaxanthis C (2009) Aging affects the mental rotation of left and right hands. PLoS One 4:e6714CrossRefPubMed
Schautzer F, Hamilton D, Kalla R, Strupp M, Brandt T (2003) Spatial memory deficits in patients with chronic bilateral vestibular failure. Ann N Y Acad Sci 1004:316–324CrossRefPubMed
Smith PF, Zheng Y, Horii A, Darlington CL (2005) Does vestibular damage cause cognitive dysfunction in humans? J Vestib Res 15:1–9PubMed
Tomasino B, Rumiati RI (2004) Effects of strategies on mental rotation and hemispheric lateralization: neuropsychological evidence. J Cogn Neurosci 16:878–888CrossRefPubMed
Vibert D, Hausler R (2000) Long-term evolution of subjective visual vertical after vestibular neurectomy and labyrinthectomy. Acta Otolaryngol 120:620–622CrossRefPubMed
Vitte E, Derosier C, Caritu Y, Berthoz A, Hasboun D, Soulie D (1996) Activation of the hippocampal formation by vestibular stimulation: a functional magnetic resonance imaging study. Exp Brain Res 112:523–526CrossRefPubMed
Zacks J, Rypma B, Gabrieli JD, Tversky B, Glover GH (1999) Imagined transformations of bodies: an fMRI investigation. Neuropsychologia 37:1029–1040CrossRefPubMed
Zacks JM, Mires J, Tversky B, Hazeltine E (2000) Mental spatial transformations of objects and perspective. Spatial Cognit Comput 2:315–332CrossRef
Zacks JM, Ollinger JM, Sheridan MA, Tversky B (2002) A parametric study of mental spatial transformations of bodies. Neuroimage 16:857–872CrossRefPubMed
Zacks JM, Gilliam F, Ojemann JG (2003) Selective disturbance of mental rotation by cortical stimulation. Neuropsychologia 41:1659–1667CrossRefPubMed
Zheng Y, Darlington CL, Smith PF (2004) Bilateral labyrinthectomy causes long-term deficit in object recognition in rat. Neuroreport 15:1913–1916CrossRefPubMed
Metadata
Title
Mental transformation abilities in patients with unilateral and bilateral vestibular loss
Authors
Luzia Grabherr
Cyril Cuffel
Jean-Philippe Guyot
Fred W. Mast
Publication date
01-03-2011
Publisher
Springer-Verlag
Published in
Experimental Brain Research / Issue 2/2011
Print ISSN: 0014-4819
Electronic ISSN: 1432-1106
DOI
https://doi.org/10.1007/s00221-011-2535-0

Other articles of this Issue 2/2011

Experimental Brain Research 2/2011 Go to the issue

Research Article

Comparing the efficacy of metronome beeps and stepping stones to adjust gait: steps to follow!

Research Article

Long-interval intracortical inhibition in a human hand muscle

Erratum

Erratum to: The Arc of synaptic memory

Research Article

Inactivation of the putamen selectively impairs reward history-based action selection

Research Article

Neural adaptation is related to face repetition irrespective of identity: a reappraisal of the N170 effect

Research Article

How do illusions constrain goal-directed movement: perceptual and visuomotor influences on speed/accuracy trade-off