Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates
Gravity is crucial for spatial perception, postural equilibrium, and movement generation. The vestibular apparatus is the main sensory system involved in monitoring gravity. Hair cells in the vestibular maculae respond to gravitoinertial forces, but they cannot distinguish between linear acceleratio...
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2014-01-01
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| Series: | BioMed Research International |
| Online Access: | http://dx.doi.org/10.1155/2014/615854 |
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doaj-0bdb6265f8da4ab993c58e010515e8232020-11-24T22:44:34ZengHindawi LimitedBioMed Research International2314-61332314-61412014-01-01201410.1155/2014/615854615854Multisensory Integration and Internal Models for Sensing Gravity Effects in PrimatesFrancesco Lacquaniti0Gianfranco Bosco1Silvio Gravano2Iole Indovina3Barbara La Scaleia4Vincenzo Maffei5Myrka Zago6Centre of Space Bio-Medicine, University of Rome Tor Vergata, Via Montpellier 1, 00133 Rome, ItalyCentre of Space Bio-Medicine, University of Rome Tor Vergata, Via Montpellier 1, 00133 Rome, ItalyCentre of Space Bio-Medicine, University of Rome Tor Vergata, Via Montpellier 1, 00133 Rome, ItalyCentre of Space Bio-Medicine, University of Rome Tor Vergata, Via Montpellier 1, 00133 Rome, ItalyLaboratory of Neuromotor Physiology, IRCCS Santa Lucia Foundation, Via Ardeatina 306, 00179 Rome, ItalyLaboratory of Neuromotor Physiology, IRCCS Santa Lucia Foundation, Via Ardeatina 306, 00179 Rome, ItalyLaboratory of Neuromotor Physiology, IRCCS Santa Lucia Foundation, Via Ardeatina 306, 00179 Rome, ItalyGravity is crucial for spatial perception, postural equilibrium, and movement generation. The vestibular apparatus is the main sensory system involved in monitoring gravity. Hair cells in the vestibular maculae respond to gravitoinertial forces, but they cannot distinguish between linear accelerations and changes of head orientation relative to gravity. The brain deals with this sensory ambiguity (which can cause some lethal airplane accidents) by combining several cues with the otolith signals: angular velocity signals provided by the semicircular canals, proprioceptive signals from muscles and tendons, visceral signals related to gravity, and visual signals. In particular, vision provides both static and dynamic signals about body orientation relative to the vertical, but it poorly discriminates arbitrary accelerations of moving objects. However, we are able to visually detect the specific acceleration of gravity since early infancy. This ability depends on the fact that gravity effects are stored in brain regions which integrate visual, vestibular, and neck proprioceptive signals and combine this information with an internal model of gravity effects.http://dx.doi.org/10.1155/2014/615854 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Francesco Lacquaniti Gianfranco Bosco Silvio Gravano Iole Indovina Barbara La Scaleia Vincenzo Maffei Myrka Zago |
| spellingShingle |
Francesco Lacquaniti Gianfranco Bosco Silvio Gravano Iole Indovina Barbara La Scaleia Vincenzo Maffei Myrka Zago Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates BioMed Research International |
| author_facet |
Francesco Lacquaniti Gianfranco Bosco Silvio Gravano Iole Indovina Barbara La Scaleia Vincenzo Maffei Myrka Zago |
| author_sort |
Francesco Lacquaniti |
| title |
Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates |
| title_short |
Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates |
| title_full |
Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates |
| title_fullStr |
Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates |
| title_full_unstemmed |
Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates |
| title_sort |
multisensory integration and internal models for sensing gravity effects in primates |
| publisher |
Hindawi Limited |
| series |
BioMed Research International |
| issn |
2314-6133 2314-6141 |
| publishDate |
2014-01-01 |
| description |
Gravity is crucial for spatial perception, postural equilibrium, and movement generation. The vestibular apparatus is the main sensory system involved in monitoring gravity. Hair cells in the vestibular maculae respond to gravitoinertial forces, but they cannot distinguish between linear accelerations and changes of head orientation relative to gravity. The brain deals with this sensory ambiguity (which can cause some lethal airplane accidents) by combining several cues with the otolith signals: angular velocity signals provided by the semicircular canals, proprioceptive signals from muscles and tendons, visceral signals related to gravity, and visual signals. In particular, vision provides both static and dynamic signals about body orientation relative to the vertical, but it poorly discriminates arbitrary accelerations of moving objects. However, we are able to visually detect the specific acceleration of gravity since early infancy. This ability depends on the fact that gravity effects are stored in brain regions which integrate visual, vestibular, and neck proprioceptive signals and combine this information with an internal model of gravity effects. |
| url |
http://dx.doi.org/10.1155/2014/615854 |
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