Modulation of vestibular sensitivity by passive motion
Modulation of vestibular sensitivity by passive motion
Abstract
Degree Project Thesis, Programme in Medicine. TITLE: Modulation of vestibular sensitivity by passive motion. Information from the vestibular system contributes to the interpretation of how the body is
oriented in space. The purpose of this study was to investigate if perception of vestibular input
is affected by passive motion. We hypothesized that vestibular afference is down regulated by
a period of conditioning (10 minutes of passive, stochastic, rotating movement while
blindfolded) and that the perception of movement based on vestibular input, therefore, is
decreased after conditioning. By using galvanic vestibular stimulation to create illusionary
movements, response to vestibular signals can be investigated independently from other
sensory information. We studied sway response during standing on a stable surface,
perception of rotation when seated and threshold for detection of motion. All tests were
performed, before as well as after motion conditioning, with either GVS or real movement as
stimulus.
The results indicate that vestibular sensitivity is modulated by motion conditioning. After
conditioning, the threshold for motion detection was increased to 248% ± 31% (mean ± SD)
of that before (P = 0.001). Perception of real rotations (30° - 180° over 5 s), in which nonvestibular
sensory cues were also available, were significantly reduced by motion
conditioning (with 16.1% in average). When using GVS, subjects reported larger illusionary
movements before conditioning compared with immediately after. After conditioning,
reported rotation to a given stimulus intensity nearly halved (from 113 to 61 degrees when
exposed to 1 mA over 10 s). Interestingly, we also found that rapid vestibulospinal balance
reflexes (latency ~300 ms), evoked by GVS and recorded as lateral shear force exerted on a
force-plate, were halved in amplitude.
We conclude that, in healthy individuals, vestibular sensitivity is modulated by passive
motion. The modulating process operates over short time frames and affects both perception
of vestibular motion signals and automatic vestibular balance reflexes, suggesting sub-cortical
or afferent regulation. Dysfunction in this process is likely to alter movement sensation and
balance control.
Degree
Student essay
Collections
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Date
2016-02-10Author
Emilsson, Frida
Keywords
vestibular sensitivity
passive motion
Language
eng