Postural responses to yaw rotation of support surface

被引：4

作者：

Chen, Chiung-Ling ^{[1
,2
,3
]}

Lou, Shu-Zon ^{[2
,3
]}

Wu, Hong-Wen ^{[4
]}

Wu, Shyi-Kuen ^{[5
]}

Yeung, Kwok-Tak ^{[2
,3
]}

Su, Fong-Chin ^{[1
,6
]}

机构：

[1] Natl Cheng Kung Univ, Inst Biomed Engn, Tainan 701, Taiwan

[2] Chung Shan Med Univ, Sch Occupat Therapy, Taichung, Taiwan

[3] Chung Shan Med Univ Hosp, Taichung, Taiwan

[4] Natl Taiwan Sport Univ, Dept & Grad Sch Phys Educ, Taichung, Taiwan

[5] Hung Kuang Univ, Dept Phys Therapy, Taichung, Taiwan

[6] Natl Cheng Kung Univ, Med Device Innovat Ctr, Tainan 701, Taiwan

来源：

GAIT & POSTURE | 2013年 / 37卷 / 02期

关键词：

Postural perturbation; Postural control; Yaw rotation; BALANCE; PLATFORM; PERTURBATIONS; STRATEGIES; HUMANS; MOTION;

D O I：

10.1016/j.gaitpost.2012.07.007

中图分类号：

Q189 [神经科学];

学科分类号：

071006 ;

摘要：

The purposes of this study were to investigate EMG and kinematic responses to yaw rotation of a support surface. Twenty people participated in four conditions, i.e., two velocities (240 degrees/s, 120 degrees/s) and two amplitudes (30 degrees, 15 degrees). Longer latency and smaller muscle responses were induced for yaw rotation, and distal ankle and knee muscles were activated earlier than trunk and neck muscles. Joint kinematics demonstrated larger angular displacements in axial rotation. Velocity and amplitude did not affect onset latency or magnitude of muscle activation but had significant effects on joint movements and COM displacements. Preliminary information about normative data of healthy subjects was obtained, and questions were generated about optimal velocity and amplitude test protocols that require further investigation. (C) 2012 Elsevier B.V. All rights reserved.

引用

页码：296 / 299

页数：4

共 50 条

[1] Reactive Postural Responses to Continuous Yaw Perturbations in Healthy Humans: The Effect of Aging
Mileti, Ilaria
Taborri, Juri
Rossi, Stefano
Del Prete, Zaccaria
Paoloni, Marco
Suppa, Antonio
Palermo, Eduardo
SENSORS, 2020, 20 (01)
[2] Effects of the type and direction of support surface perturbation on postural responses
Chen, Chiung-Ling
Lou, Shu-Zon
Wu, Hong-Wen
Wu, Shyi-Kuen
Yeung, Kwok-Tak
Su, Fong-Chin
JOURNAL OF NEUROENGINEERING AND REHABILITATION, 2014, 11
[3] Postural Responses of Adults With Cerebral Palsy to Combined Base of Support and Visual Field Rotation
Slaboda, Jill C.
Lauer, Richard T.
Keshner, Emily A.
IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, 2013, 21 (02) : 218 - 224
[4] Age-related changes in postural responses revealed by support-surface translations with a long acceleration-deceleration interval
Tokuno, Craig D.
Cresswell, Andrew G.
Thorstensson, Alf
Carpenter, Mark G.
CLINICAL NEUROPHYSIOLOGY, 2010, 121 (01) : 109 - 117
[5] Postural responses exhibit multisensory dependencies with discordant visual and support surface motion
Keshner, EA
Kenyon, RV
Langston, J
JOURNAL OF VESTIBULAR RESEARCH-EQUILIBRIUM & ORIENTATION, 2004, 14 (04): : 307 - 319
[6] Time series analysis of postural responses to combined visual pitch and support surface tilt
Slaboda, Jill C.
Lauer, Richard
Keshner, Emily A.
NEUROSCIENCE LETTERS, 2011, 491 (02) : 138 - 142
[7] Postural Control Analysis during Angular Perturbations of the Support Surface
Skorja, G.
Babic, J.
6TH WORLD CONGRESS OF BIOMECHANICS (WCB 2010), PTS 1-3, 2010, 31 : 969 - 972
[8] Organization of Postural Coordination Patterns as a Function of Scaling the Surface of Support Dynamics
Ko, Ji-Hyun
Newell, Karl M.
JOURNAL OF MOTOR BEHAVIOR, 2015, 47 (05) : 415 - 426
[9] Influence of virtual height exposure on postural reactions to support surface translations
Cleworth, Taylor W.
Chua, Romeo
Inglis, J. Timothy
Carpenter, Mark G.
GAIT & POSTURE, 2016, 47 : 96 - 102
[10] Aging does not affect generalized postural motor learning in response to variable amplitude oscillations of the support surface
Van Ooteghem, Karen
Frank, James S.
Allard, Fran
Horak, Fay B.
EXPERIMENTAL BRAIN RESEARCH, 2010, 204 (04) : 505 - 514

← 1 2 3 4 5 →