Visual control in the upright standing position The role of static and kinetic visual information
The role of static and kinetic visual information in the regulation of the upright standing position was studied in 7 healthy subjects. The subject stood on a stabilometer with the feet close together and gazed at the visual pattern (11 vertical stripes drawn at intervals of 4 cm). The postural sway...
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| Published in | Equilibrium Research Vol. 47; no. Suppl-3; pp. 125 - 131 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English Japanese |
| Published |
Japan Society for Equilibrium Research
1988
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0385-5716 1882-577X |
| DOI | 10.3757/jser.47.Suppl-3_125 |
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| Abstract | The role of static and kinetic visual information in the regulation of the upright standing position was studied in 7 healthy subjects. The subject stood on a stabilometer with the feet close together and gazed at the visual pattern (11 vertical stripes drawn at intervals of 4 cm). The postural sway under normal illumination, stroboscopic illumination at a frequency of 10 Hz, 5 Hz, and 1.4 Hz, and in darkness was recorded for 30 seconds with an X-Y recorder and stored in the disk of a microcomputer. On the basis of the stored data, concerning the area, unit locus length, forward-backward and right-left diameters, standard deviation, skewness and kurtosis of amplitude, the probability density distribution and power spectrum were calculated by a specially designed program. 1. The size of body sway under stroboscopic illumination at a frequency of 1.4 Hz was larger than in the dark. Examinations related to sway-area, for-ward-backward and right-left diameters, and standard deviation of amplitude probability density distribution showed similar results. 2. Kurtosis tended to be small under stroboscopic illumination at a frequency of 1.4 Hz. 3. The rate of low frequency (0.033-0.195 Hz) in the power spectra of body sway under stroboscopic illumination at a frequency of 1.4 Hz was larger than in the dark. Static visual information without kinetic visual information caused destabilization of posture regulation. Kinetic visual information plays a major role in visual control in the upright standing position, especially in the control of body sway at low frequency. |
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| AbstractList | The role of static and kinetic visual information in the regulation of the upright standing position was studied in 7 healthy subjects. The subject stood on a stabilometer with the feet close together and gazed at the visual pattern (11 vertical stripes drawn at intervals of 4 cm). The postural sway under normal illumination, stroboscopic illumination at a frequency of 10 Hz, 5 Hz, and 1.4 Hz, and in darkness was recorded for 30 seconds with an X-Y recorder and stored in the disk of a microcomputer. On the basis of the stored data, concerning the area, unit locus length, forward-backward and right-left diameters, standard deviation, skewness and kurtosis of amplitude, the probability density distribution and power spectrum were calculated by a specially designed program. 1. The size of body sway under stroboscopic illumination at a frequency of 1.4 Hz was larger than in the dark. Examinations related to sway-area, for-ward-backward and right-left diameters, and standard deviation of amplitude probability density distribution showed similar results. 2. Kurtosis tended to be small under stroboscopic illumination at a frequency of 1.4 Hz. 3. The rate of low frequency (0.033-0.195 Hz) in the power spectra of body sway under stroboscopic illumination at a frequency of 1.4 Hz was larger than in the dark. Static visual information without kinetic visual information caused destabilization of posture regulation. Kinetic visual information plays a major role in visual control in the upright standing position, especially in the control of body sway at low frequency. |
| Author | Matsubara, Sigenori Sirato, Hiromichi Mizuta, Keisuke Mori, Yosirou Koizumi, Hikari Hiramatsu, Takashi Akagi, Hirofumi Tokita, Takashi Kozima, Toshimi |
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| References | 7) Kapteyn TS, Bles W, Brandt Th, Wist ER : Visual Stabilization of Posture : Effective of light Intensity and stroboscopic surround Illumination. Agressologie 20 : 191-192, 1979 3) Wapner S, Witkin HA : THE ROLE OF VISUAL FACTORS IN MAINTENANCE OF BODYBALANCE. Am. J. Psychol. 63 : 385-408, 1950 9) 村瀬研一,斉藤進,塚原進:視覚と姿勢制御.バイオメカニズム4:149-156,1978 2) Edwards AS : Body sway and vision. J. Exper. Pysychol. 36 : 526-537, 1946 4) 米田敏徳増厚二:正常人の直立時重心動揺の周波数分析(1)―視覚・足底支持面の影響―.Equilrium Res 41:55-60,1982 5) 外山敬介:空間視における役割.視眼3:3-15,1986 1) 五島桂子:重心動揺検査の検討―コンピュータ分析における検査項目と正常域―.Equilibrium Res 45 : 368-387,1986 6) Amblard B, Cremieux J, Marchand AR, Carbianc A : Lateral orientation and stabilization of human stance : static versus dynamic visual cues. Exp. Brain Res 61 : 21-37, 1985 8) Amblard B, Cremieux J : Rôle de l'infomation visuelle du mouvement dans le maintien de l'équilibre postural chez l'home. Agressologie 17 : 25-36, 1976 |
| References_xml | – reference: 1) 五島桂子:重心動揺検査の検討―コンピュータ分析における検査項目と正常域―.Equilibrium Res 45 : 368-387,1986 – reference: 7) Kapteyn TS, Bles W, Brandt Th, Wist ER : Visual Stabilization of Posture : Effective of light Intensity and stroboscopic surround Illumination. Agressologie 20 : 191-192, 1979 – reference: 6) Amblard B, Cremieux J, Marchand AR, Carbianc A : Lateral orientation and stabilization of human stance : static versus dynamic visual cues. Exp. Brain Res 61 : 21-37, 1985 – reference: 8) Amblard B, Cremieux J : Rôle de l'infomation visuelle du mouvement dans le maintien de l'équilibre postural chez l'home. Agressologie 17 : 25-36, 1976 – reference: 4) 米田敏徳増厚二:正常人の直立時重心動揺の周波数分析(1)―視覚・足底支持面の影響―.Equilrium Res 41:55-60,1982 – reference: 3) Wapner S, Witkin HA : THE ROLE OF VISUAL FACTORS IN MAINTENANCE OF BODYBALANCE. Am. J. Psychol. 63 : 385-408, 1950 – reference: 9) 村瀬研一,斉藤進,塚原進:視覚と姿勢制御.バイオメカニズム4:149-156,1978 – reference: 2) Edwards AS : Body sway and vision. J. Exper. Pysychol. 36 : 526-537, 1946 – reference: 5) 外山敬介:空間視における役割.視眼3:3-15,1986 |
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| SubjectTerms | stabilometry static and kinetic visual information stroboscopic illumination visual control in the upright standing position |
| Subtitle | The role of static and kinetic visual information |
| Title | Visual control in the upright standing position |
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