上肢の把握動作に影響する反対側上肢の感覚情報—対象物のサイズと距離の情報
要旨:上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した.第一実験は,健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比較した.結果は,視覚と反対側上肢の把持の組み合わせの条件では手指開口幅が減少した.第二実験は,健常者20名の動作を反対側上肢の把持による対象物の距離とサイズの情報が個別で提供される条件で比較した.結果は,距離の情報が手指開口幅の減少に寄与するが距離とサイズの情報が揃わない場合,手指の開閉に要する時間が増加する傾向であった.このことから,把握動作の制御に寄与するには,対象物の視覚と反対側上肢の体性感覚の統合の空間的明瞭度に依存する可能性が...
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| Published in | 作業療法 Vol. 43; no. 2; pp. 194 - 202 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
日本作業療法士協会
15.04.2024
一般社団法人 日本作業療法士協会 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0289-4920 2434-4419 |
| DOI | 10.32178/jotr.43.2_194 |
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| Abstract | 要旨:上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した.第一実験は,健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比較した.結果は,視覚と反対側上肢の把持の組み合わせの条件では手指開口幅が減少した.第二実験は,健常者20名の動作を反対側上肢の把持による対象物の距離とサイズの情報が個別で提供される条件で比較した.結果は,距離の情報が手指開口幅の減少に寄与するが距離とサイズの情報が揃わない場合,手指の開閉に要する時間が増加する傾向であった.このことから,把握動作の制御に寄与するには,対象物の視覚と反対側上肢の体性感覚の統合の空間的明瞭度に依存する可能性がある. We investigated the effects of sensory information from the contralateral upper limb on motor control during grasping movements of the upper limb. In the first experiment, movements of 20 healthy subjects were compared in three conditions based on the presence or absence of object grasping and vision in the contralateral upper limb. The results showed that the hand opening width was decreased in the condition of the combination of vision and contralateral upper limb grasping. In the second experiment, the movements of 20 healthy subjects were compared under the condition that the distance and size of the object were individually provided by the grasping of the contralateral upper limb. The results showed that the distance information contributed to the decrease in hand opening width, but the time required to open and close the hand tended to increase when the distance and size information were not aligned. Thus, the contribution to the control of grasping motion may depend on the spatial clarity of the integration of object vision and the somatosensory integration of the contralateral upper extremity. |
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| AbstractList | 要旨:上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した.第一実験は,健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比較した.結果は,視覚と反対側上肢の把持の組み合わせの条件では手指開口幅が減少した.第二実験は,健常者20名の動作を反対側上肢の把持による対象物の距離とサイズの情報が個別で提供される条件で比較した.結果は,距離の情報が手指開口幅の減少に寄与するが距離とサイズの情報が揃わない場合,手指の開閉に要する時間が増加する傾向であった.このことから,把握動作の制御に寄与するには,対象物の視覚と反対側上肢の体性感覚の統合の空間的明瞭度に依存する可能性がある. We investigated the effects of sensory information from the contralateral upper limb on motor control during grasping movements of the upper limb. In the first experiment, movements of 20 healthy subjects were compared in three conditions based on the presence or absence of object grasping and vision in the contralateral upper limb. The results showed that the hand opening width was decreased in the condition of the combination of vision and contralateral upper limb grasping. In the second experiment, the movements of 20 healthy subjects were compared under the condition that the distance and size of the object were individually provided by the grasping of the contralateral upper limb. The results showed that the distance information contributed to the decrease in hand opening width, but the time required to open and close the hand tended to increase when the distance and size information were not aligned. Thus, the contribution to the control of grasping motion may depend on the spatial clarity of the integration of object vision and the somatosensory integration of the contralateral upper extremity. 「要旨」: 上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した. 第一実験は, 健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比較した. 結果は, 視覚と反対側上肢の把持の組み合わせの条件では手指開口幅が減少した. 第二実験は, 健常者20名の動作を反対側上肢の把持による対象物の距離とサイズの情報が個別で提供される条件で比較した. 結果は, 距離の情報が手指開口幅の減少に寄与するが距離とサイズの情報が揃わない場合, 手指の開閉に要する時間が増加する傾向であった. このことから, 把握動作の制御に寄与するには, 対象物の視覚と反対側上肢の体性感覚の統合の空間的明瞭度に依存する可能性がある. 上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した.第一実験は,健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比較した.結果は,視覚と反対側上肢の把持の組み合わせの条件では手指開口幅が減少した.第二実験は,健常者20名の動作を反対側上肢の把持による対象物の距離とサイズの情報が個別で提供される条件で比較した.結果は,距離の情報が手指開口幅の減少に寄与するが距離とサイズの情報が揃わない場合,手指の開閉に要する時間が増加する傾向であった.このことから,把握動作の制御に寄与するには,対象物の視覚と反対側上肢の体性感覚の統合の空間的明瞭度に依存する可能性がある. |
| Author | 赤口 諒 大角 駿介 森岡 周 |
| AuthorAffiliation | 社会医療法人財団新和会八千代病院総合リハビリテーションセンター 医療法人孟仁会摂南総合病院認知神経リハビリテーションセンター 畿央大学大学院健康科学研究神経リハビリテーション研究室 |
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| References | 27) Brandauer B, Hermsdörfer J, Beck A, Aurich V, Gizewski ER, et al: Impairments of prehension kinematics and grasping forces in patients with cerebellar degeneration and the relationship to cerebellar atrophy. Clin Neurophysiol 119(11): 2528-2537, 2008. 8) Takakusaki K, Saitoh K, Harada H, Kashiwayanagi M: Role of basal ganglia-brainstem pathways in the control of motor behaviors. Neurosci Res 50(2): 137-151, 2004. 12) Lang CE, Wagner JM, Bastian AJ, Hu Q, Edwards DF, et al: Deficits in grasp versus reach during acute hemiparesis. Exp Brain Res 166(1): 126-136, 2005. 4) Castiello U: The neuroscience of grasping. Nat Rev Neurosci 6(9): 726-736, 2005. 19) Gepshtein S, Banks MS: Viewing geometry determines how vision and haptics combine in size perception. Curr Biol 13(6): 483-488, 2003. 25) Van Beers RJ, Wolpert DM, Haggard P: When feeling is more important than seeing in sensorimotor adaptation. Curr Biol 12(10): 834-837, 2002. 6) Ansuini C, Santello M, Tubaldi F, Massaccesi S, Castiello U: Control of hand shaping in response to object shape perturbation. Exp Brain Res 180(1): 85-96, 2007. 13) Patchay S, Castiello U, Haggard P: A cross-modal interference effect in grasping objects. Psychon Bull Rev 10(4): 924-931, 2003. 2) Jakobson LS, Goodale MA: Factors affecting higher-order movement planning: a kinematic analysis of human prehension. Exp Brain Res 86(1): 199-208, 1991. 9) Fasano A, Mazzoni A, Falotico E: Reaching and Grasping Movements in Parkinson's Disease: A Review. J Parkinsons Dis 12(4): 1083-1113, 2022. 17) Camponogara I, Volcic R: Grasping movements toward seen and handheld objects. Sci Rep 9(1): 3665, 2019, doi: 10.1038/s41598-018-38277-w. 11) Raghavan P, Santello M, Gordon AM, Krakauer JW: Compensatory motor control after stroke: an alternative joint strategy for object-dependent shaping of hand posture. J Neurophysiol 103(6): 3034-3043, 2010. 18) Pettypiece CE, Culham JC, Goodale MA: Differential effects of delay upon visually and haptically guided grasping and perceptual judgments. Exp Brain Res 195(3): 473-479, 2009. 22) Chen J, Sperandio I, Goodale MA: Proprioceptive Distance Cues Restore Perfect Size Constancy in Grasping, but Not Perception, When Vision Is Limited. Curr Biol 28(6): 927-932. e4, 2018, doi: 10.1016/j.cub.2018.01.076. 26) Gepshtein S, Burge J, Ernst MO, Banks MS: The combination of vision and touch depends on spatial proximity. J Vis 5(11): 1013-1023, 2005. 1) Lee-Miller T, Marneweck M, Santello M, Gordon AM: Visual Cues of Object Properties Differentially Affect Anticipatory Planning of Digit Forces and Placement. PLoS One 11(4): e0154033, 2016, doi: 10.1371/journal. pone. 0154033. 10) Wolf SL, Winstein CJ, Miller JP, Taub E, Uswatte G, et al: Effect of constraint-induced movement therapy on upper extremity function 3 to 9 months after stroke: the EXCITE randomized clinical trial. JAMA 296(17): 2095-2104, 2006. 23) Battaglia PW, Di Luca M, Ernst MO, Schrater PR, Machulla T, et al: Within-and cross-modal distance information disambiguate visual size-change perception. PLoS Comput Biol 6(3): e1000697, 2010, doi: 10.1371/journal. pcbi. 1000697. 14) Proske U, Gandevia SC: The proprioceptive senses: their roles in signaling body shape, body position and movement, and muscle force. Physiol Rev 92(4): 1651-1697, 2012. 21) Chieffi S, Gentilucci M: Coordination between the transport and the grasp components during prehension movements. Exp Brain Res 94(3): 471-477, 1993. 16) Pettypiece CE, Goodale MA, Culham JC: Integration of haptic and visual size cues in perception and action revealed through cross-modal conflict. Exp Brain Res 201(4): 863-873, 2010. 7) Gentilucci M, Toni I, Daprati E, Gangitano M: Tactile input of the hand and the control of reaching to grasp movements. Exp Brain Res 114(1): 130-137, 1997. 20) Ernst MO, Banks MS: Humans integrate visual and haptic information in a statistically optimal fashion. Nature 415(6870): 429-433, 2002. 3) Jeannerod M: The timing of natural prehension movements. J Mot Behav 16(3): 235-254, 1984. 15) Berryman LJ, Yau JM, Hsiao SS: Representation of object size in the somatosensory system. J Neurophysiol 96(1): 27-39, 2006. 24) Camponogara I, Volcic R: Integration of haptics and vision in human multisensory grasping. Cortex 135: 173-185, 2021. 5) Gentilucci M, Toni I, Chieffi S, Pavesi G: The role of proprioception in the control of prehension movements: a kinematic study in a peripherally deafferented patient and in normal subjects. Exp Brain Res 99(3): 483-500, 1994. |
| References_xml | – reference: 9) Fasano A, Mazzoni A, Falotico E: Reaching and Grasping Movements in Parkinson's Disease: A Review. J Parkinsons Dis 12(4): 1083-1113, 2022. – reference: 23) Battaglia PW, Di Luca M, Ernst MO, Schrater PR, Machulla T, et al: Within-and cross-modal distance information disambiguate visual size-change perception. PLoS Comput Biol 6(3): e1000697, 2010, doi: 10.1371/journal. pcbi. 1000697. – reference: 25) Van Beers RJ, Wolpert DM, Haggard P: When feeling is more important than seeing in sensorimotor adaptation. Curr Biol 12(10): 834-837, 2002. – reference: 3) Jeannerod M: The timing of natural prehension movements. J Mot Behav 16(3): 235-254, 1984. – reference: 1) Lee-Miller T, Marneweck M, Santello M, Gordon AM: Visual Cues of Object Properties Differentially Affect Anticipatory Planning of Digit Forces and Placement. PLoS One 11(4): e0154033, 2016, doi: 10.1371/journal. pone. 0154033. – reference: 10) Wolf SL, Winstein CJ, Miller JP, Taub E, Uswatte G, et al: Effect of constraint-induced movement therapy on upper extremity function 3 to 9 months after stroke: the EXCITE randomized clinical trial. JAMA 296(17): 2095-2104, 2006. – reference: 19) Gepshtein S, Banks MS: Viewing geometry determines how vision and haptics combine in size perception. Curr Biol 13(6): 483-488, 2003. – reference: 17) Camponogara I, Volcic R: Grasping movements toward seen and handheld objects. Sci Rep 9(1): 3665, 2019, doi: 10.1038/s41598-018-38277-w. – reference: 12) Lang CE, Wagner JM, Bastian AJ, Hu Q, Edwards DF, et al: Deficits in grasp versus reach during acute hemiparesis. Exp Brain Res 166(1): 126-136, 2005. – reference: 14) Proske U, Gandevia SC: The proprioceptive senses: their roles in signaling body shape, body position and movement, and muscle force. Physiol Rev 92(4): 1651-1697, 2012. – reference: 22) Chen J, Sperandio I, Goodale MA: Proprioceptive Distance Cues Restore Perfect Size Constancy in Grasping, but Not Perception, When Vision Is Limited. Curr Biol 28(6): 927-932. e4, 2018, doi: 10.1016/j.cub.2018.01.076. – reference: 11) Raghavan P, Santello M, Gordon AM, Krakauer JW: Compensatory motor control after stroke: an alternative joint strategy for object-dependent shaping of hand posture. J Neurophysiol 103(6): 3034-3043, 2010. – reference: 20) Ernst MO, Banks MS: Humans integrate visual and haptic information in a statistically optimal fashion. Nature 415(6870): 429-433, 2002. – reference: 13) Patchay S, Castiello U, Haggard P: A cross-modal interference effect in grasping objects. Psychon Bull Rev 10(4): 924-931, 2003. – reference: 27) Brandauer B, Hermsdörfer J, Beck A, Aurich V, Gizewski ER, et al: Impairments of prehension kinematics and grasping forces in patients with cerebellar degeneration and the relationship to cerebellar atrophy. Clin Neurophysiol 119(11): 2528-2537, 2008. – reference: 16) Pettypiece CE, Goodale MA, Culham JC: Integration of haptic and visual size cues in perception and action revealed through cross-modal conflict. Exp Brain Res 201(4): 863-873, 2010. – reference: 6) Ansuini C, Santello M, Tubaldi F, Massaccesi S, Castiello U: Control of hand shaping in response to object shape perturbation. Exp Brain Res 180(1): 85-96, 2007. – reference: 15) Berryman LJ, Yau JM, Hsiao SS: Representation of object size in the somatosensory system. J Neurophysiol 96(1): 27-39, 2006. – reference: 8) Takakusaki K, Saitoh K, Harada H, Kashiwayanagi M: Role of basal ganglia-brainstem pathways in the control of motor behaviors. Neurosci Res 50(2): 137-151, 2004. – reference: 18) Pettypiece CE, Culham JC, Goodale MA: Differential effects of delay upon visually and haptically guided grasping and perceptual judgments. Exp Brain Res 195(3): 473-479, 2009. – reference: 26) Gepshtein S, Burge J, Ernst MO, Banks MS: The combination of vision and touch depends on spatial proximity. J Vis 5(11): 1013-1023, 2005. – reference: 24) Camponogara I, Volcic R: Integration of haptics and vision in human multisensory grasping. Cortex 135: 173-185, 2021. – reference: 4) Castiello U: The neuroscience of grasping. Nat Rev Neurosci 6(9): 726-736, 2005. – reference: 5) Gentilucci M, Toni I, Chieffi S, Pavesi G: The role of proprioception in the control of prehension movements: a kinematic study in a peripherally deafferented patient and in normal subjects. Exp Brain Res 99(3): 483-500, 1994. – reference: 21) Chieffi S, Gentilucci M: Coordination between the transport and the grasp components during prehension movements. Exp Brain Res 94(3): 471-477, 1993. – reference: 2) Jakobson LS, Goodale MA: Factors affecting higher-order movement planning: a kinematic analysis of human prehension. Exp Brain Res 86(1): 199-208, 1991. – reference: 7) Gentilucci M, Toni I, Daprati E, Gangitano M: Tactile input of the hand and the control of reaching to grasp movements. Exp Brain Res 114(1): 130-137, 1997. |
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| Snippet | 要旨:上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した.第一実験は,健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比... 上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した.第一実験は,健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比較した.... 「要旨」: 上肢の把握動作時の反対側上肢の感覚情報が運動制御に及ぼす影響を検証した. 第一実験は, 健常者20名の動作を反対側上肢の対象物の把持や視覚の有無から3条件で比... |
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| SubjectTerms | Finger function Grasping movements Motor control Sensory motor 感覚運動 手指機能 把握動作 運動制御 |
| Title | 上肢の把握動作に影響する反対側上肢の感覚情報—対象物のサイズと距離の情報 |
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| ispartofPNX | 作業療法, 2024/04/15, Vol.43(2), pp.194-202 |
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