Vestibular adaptation to space in monkeys
Identifieur interne : 002174 ( Main/Exploration ); précédent : 002173; suivant : 002175Vestibular adaptation to space in monkeys
Auteurs : Mingjia Dai [Russie] ; Theodore Raphan [Russie] ; Inessa Kozlovskaya [Russie] ; Bernard Cohen [Russie]Source :
- Otolaryngology - Head and Neck Surgery [ 0194-5998 ] ; 1998.
Abstract
Otolith-induced eye movements of rhesus monkeys were studied before and after the 1989 COSMOS 2044 and the 1992 to 1993 COSMOS 2229 flights. Two animals flew in each mission for approximately 2 weeks. After flight, spatial orientation of the angular vestibulo-ocular reflex was altered. In one animal the time constant of postrotatory nystagmus, which had been shortened by head tilts with regard to gravity before flight, was unaffected by the same head tilts after flight. In another animal, eye velocity, which tended to align with a gravitational axis before flight, moved toward a body axis after flight. This shift of orientation disappeared by 7 days after landing. After flight, the magnitude of compensatory ocular counter-rolling was reduced by about 70% in both dynamic and static tilts. Modulation in vergence in response to naso-occipital linear acceleration during off-vertical axis rotation was reduced by more than 50%. These changes persisted for 11 days after recovery. An up and down asymmetry of vertical nystagmus was diminished for 7 days. Gains of the semicircular canal–induced horizontal and vertical angular vestibulo-ocular reflexes were unaffected in both flights, but the gain of the roll angular vestibulo-ocular reflex was decreased. These data indicate that there are short- and long-term changes in otolith-induced eye movements after adaptation to microgravity. These experiments also demonstrate the unique value of the monkey as a model for studying effects of vestibular adaptation in space. Eye movements can be measured in three dimensions in response to controlled vestibular and visual stimulation, and the results are directly applicable to human beings. Studies in monkeys to determine how otolith afferent input and central processing is altered by adaptation to microgravity should be an essential component of future space-related research. (Otolaryngol Head Neck Surg 1998;119:65-77.)
Url:
DOI: 10.1016/S0194-5998(98)70175-5
Affiliations:
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Two animals flew in each mission for approximately 2 weeks. After flight, spatial orientation of the angular vestibulo-ocular reflex was altered. In one animal the time constant of postrotatory nystagmus, which had been shortened by head tilts with regard to gravity before flight, was unaffected by the same head tilts after flight. In another animal, eye velocity, which tended to align with a gravitational axis before flight, moved toward a body axis after flight. This shift of orientation disappeared by 7 days after landing. After flight, the magnitude of compensatory ocular counter-rolling was reduced by about 70% in both dynamic and static tilts. Modulation in vergence in response to naso-occipital linear acceleration during off-vertical axis rotation was reduced by more than 50%. These changes persisted for 11 days after recovery. An up and down asymmetry of vertical nystagmus was diminished for 7 days. Gains of the semicircular canal–induced horizontal and vertical angular vestibulo-ocular reflexes were unaffected in both flights, but the gain of the roll angular vestibulo-ocular reflex was decreased. These data indicate that there are short- and long-term changes in otolith-induced eye movements after adaptation to microgravity. These experiments also demonstrate the unique value of the monkey as a model for studying effects of vestibular adaptation in space. Eye movements can be measured in three dimensions in response to controlled vestibular and visual stimulation, and the results are directly applicable to human beings. Studies in monkeys to determine how otolith afferent input and central processing is altered by adaptation to microgravity should be an essential component of future space-related research. (Otolaryngol Head Neck Surg 1998;119:65-77.)</div></front></TEI><affiliations><list><country><li>Russie</li></country></list><tree><country name="Russie"><noRegion><name sortKey="Dai, Mingjia" sort="Dai, Mingjia" uniqKey="Dai M" first="Mingjia" last="Dai">Mingjia Dai</name></noRegion><name sortKey="Cohen, Bernard" sort="Cohen, Bernard" uniqKey="Cohen B" first="Bernard" last="Cohen">Bernard Cohen</name><name sortKey="Kozlovskaya, Inessa" sort="Kozlovskaya, Inessa" uniqKey="Kozlovskaya I" first="Inessa" last="Kozlovskaya">Inessa Kozlovskaya</name><name sortKey="Raphan, Theodore" sort="Raphan, Theodore" uniqKey="Raphan T" first="Theodore" last="Raphan">Theodore Raphan</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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