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More than aiding balance, vestibular organs provide an on-line movement guidance system
August 09, 2005Anyone who's had to find his or her way through a darkened room can appreciate that nonvisual cues play a large role in our sense of movement. What might be less apparent is that not all such cues come from our remaining four senses.
In a finding that broadens our understanding of human movement control, researchers at the Institute of Neurology in London have shown that the inner-ear vestibular organs provide what is essentially an on-line movement guidance system for maintaining the accuracy of whole-body movements.
The vestibular organs are commonly thought of as sensors that serve balance, the control of visual gaze, and higher spatial functions, such as navigation. However, because these organs respond to head movements, such as accelerations, they also have the potential to signal the accuracy of any voluntary movement that causes the head to move in space. The brain may then use that information for movement control in the same way that it uses sensory feedback information from the eyes, muscles, and skin to assess and adjust a limb movement as it is being executed.
In the new work, appearing in the August 9 issue of Current Biology, Brian Day and Raymond Reynolds of University College London show that the brain uses signals from the vestibular organs to make on-line adjustments to whole-body voluntary movements. The researchers were able to show this by precisely stimulating the vestibular sensory nerves through the skin while volunteers performed a simple upper-body movement. The researchers found that the stimulus altered the normal vestibular response to the upper-body movement and automatically caused the subjects to adjust their movement speed-and did so in a predictable way that depended on how the vestibular sensory nerves were stimulated. As one might expect when perturbing the guidance system, the effect of the nerve stimulation was only apparent in connection with body movement; the same stimulus had almost no effect when the subjects were stationary.
The authors of the study point out that this vestibular mechanism of movement control may be especially valuable when other senses become less reliable-such as in the dark-or for complex, high-precision whole-body movements, such as those of the gymnast or circus performer.
Cell Press
In the new work, appearing in the August 9 issue of Current Biology, Brian Day and Raymond Reynolds of University College London show that the brain uses signals from the vestibular organs to make on-line adjustments to whole-body voluntary movements. The researchers were able to show this by precisely stimulating the vestibular sensory nerves through the skin while volunteers performed a simple upper-body movement. The researchers found that the stimulus altered the normal vestibular response to the upper-body movement and automatically caused the subjects to adjust their movement speed-and did so in a predictable way that depended on how the vestibular sensory nerves were stimulated. As one might expect when perturbing the guidance system, the effect of the nerve stimulation was only apparent in connection with body movement; the same stimulus had almost no effect when the subjects were stationary.
The authors of the study point out that this vestibular mechanism of movement control may be especially valuable when other senses become less reliable-such as in the dark-or for complex, high-precision whole-body movements, such as those of the gymnast or circus performer.
Cell Press
Inner ear balance disorders common, associated with falls among older Americans
An estimated 35 percent of U.S. adults age 40 and older have vestibular dysfunction (inner ear balance disorders), and those who do may have a higher risk of falling.
More Vestibular Organs Current Events and Vestibular Organs News Articles
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Third Symposium on the Role of the Vestibular Organs in Space Exploration. by [NASA] (Author) | |
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Auditory And Vestibular Organs of Marine Mammals (Russian Academic Monographs) by G. N. Sointseva (Author) The basic directions of the structural evolution of the outer, middle and inner ears in representatives of a wide ecological range of mammals (terrestrial, subterranean, aerial, semi-aquatic and aquatic forms, including marine mammals) have been traced in this monograph for the first time. The broad spectrum of the species studied and the application of modern anatomical, optical and bio-mechanical methods allowed the author to describe previously unknown structural features of the peripheral part of the auditory system in animals with a varied specialization of hearing. The influence of ecological and evolutionary factors on the structural organization of the auditory organ was analyzed. The ecological and morphological approach was useful in revealing the fact that the... |
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Morphology of the Auditory and Vestibular Organs in Mammals: With Emphasis on Marine Species (Russian Academy of Sciences) by Galina N. Solntseva (Author) This monograph describes the directions of the structural evolution of the peripheral part of the auditory system in representatives of different ecological groups of mammals. Special attention is paid to the least studied orders of marine mammals (pinnipeds, cetaceans), being of great interest both with regards to the echolocating abilities in dolphins and the influence of the aquatic environment on the development of morphological adaptations in the structure of the outer, middle and inner ears. Undertaken for the first time, a comparative embryological study of the peripheral part of the auditory system in marine mammals allowed the author to reveal the developmental pattern of the auditory and equilibrium organs in animals with a different auditory specialization. The influence of... |
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Proceedings of the Symposium On Vestibular Organs and Altered Force Environment by NASA (Publisher) | |
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Symposium on the Role of the Vestibular Organs in Space Exploration. by [NASA] (Author) | |
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Symposium on the Role of the Vestibular Organs in Space Exploration. by NASA (Publisher) | |
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Vestibular Autonomic Regulation by Bill J. Yates (Author), Alan D. Miller (Author) This book, explores a new and exciting investigative area emerging from recent data suggesting that the vestibular system, in addition to detecting body position and movement in space, contributes to the maintenance of stable blood pressure and respiration during movement and postural changes. While it has long been known that vestibular disturbances can result in motion sickness, these new findings link vestibular dysfunction to autonomic disturbances, such as orthostatic hypotension, and to psychiatric conditions, such as agoraphobia. Vestibular Autonomic Regulation begins with timely reviews of the vestibular system and respiratory, cardiovascular, and autonomic control. It then discusses the basic science and clinical implications of vestibular autonomic integration, elegantly... |
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Neurochemistry of the Vestibular System by Alvin J. Beitz (Editor), John H. Anderson (Editor) The ability to quantify the sensory stimuli and resulting behavioral responses has enabled researchers over the past thirty years to gain an in-depth understanding of the physiological processes and neural pathways involved in the control of eye and head movements and posture. However, the molecular mechanisms and neurochemical processes that underlie neurotransmission of the vestibular and oculomotor pathways have begun to be defined only during the past decade. The first book available on this topic, Neurochemistry of the Vestibular System covers the proliferation of new information stemming from the technical advances in the areas of molecular biology and neurochemistry. It analyzes the recent developments in areas that relate to the neurochemical organization of the hair cells in the... |
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Comparative anatomy of the audio-vestibular organ (NASA TT F) by Herman Maximilian de Burlet (Author) | |
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SYMPOSIUM ON THE ROLE OF VESTIBULAR ORGANS IN THE EXPLORATION OF SPACE. by A. (Chariman) Graybiel (Author), Drawings, Graphs B & w photos (Illustrator) |
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