about
Influence of neuromuscular noise and walking speed on fall risk and dynamic stability in a 3D dynamic walking modelDynamic stability of individuals with transtibial amputation walking in destabilizing environmentsSensitivity of local dynamic stability of over-ground walking to balance impairment due to galvanic vestibular stimulationKinematic measures for assessing gait stability in elderly individuals: a systematic reviewUsing dynamic walking models to identify factors that contribute to increased risk of falling in older adultsTranstibial amputee joint motion has increased attractor divergence during walking compared to non-amputee gaitIdentification of functional parameters for the classification of older female fallers and prediction of 'first-time' fallersEstimating dynamic gait stability using data from non-aligned inertial sensorsVoluntarily changing step length or step width affects dynamic stability of human walkingMeasures of gait stability: performance on adults and toddlers at the beginning of independent walking.Inertial Sensors to Assess Gait Quality in Patients with Neurological Disorders: A Systematic Review of Technical and Analytical ChallengesPostural threat during walking: effects on energy cost and accompanying gait changesCould local dynamic stability serve as an early predictor of falls in patients with moderate neurological gait disorders? A reliability and comparison study in healthy individuals and in patients with paresis of the lower extremitiesSensitivity of the Wolf's and Rosenstein's algorithms to evaluate local dynamic stability from small gait data sets.Dynamic stability of superior vs. inferior body segments in individuals with transtibial amputation walking in destabilizing environments.Differences in walking pattern during 6-min walk test between patients with COPD and healthy subjectsThe effects of rhythmic sensory cues on the temporal dynamics of human gaitExtreme levels of noise constitute a key neuromuscular deficit in the elderlyDo orthopaedic shoes improve local dynamic stability of gait? An observational study in patients with chronic foot and ankle injuries.Temporal but not spatial variability during gait is reduced after selective dorsal rhizotomy in children with cerebral palsy.Steps to take to enhance gait stability: the effect of stride frequency, stride length, and walking speed on local dynamic stability and margins of stabilityFall-related gait characteristics on the treadmill and in daily lifeMeasurement strategy and statistical power in studies assessing gait stability and variability in older adultsGait stability in children with Cerebral PalsyRestricted Arm Swing Affects Gait Stability and Increased Walking Speed Alters Trunk Movements in Children with Cerebral PalsyA Conceptual Framework for the Progression of Balance Exercises in Persons with Balance and Vestibular Disorders.Human movement variability, nonlinear dynamics, and pathology: is there a connection?Influence of single and dual tasks on gait stability and gait speed in the elderly : An explorative study.The Effects of Experimentally Induced Low Back Pain on Spine Rotational Stiffness and Local Dynamic Stability.Gait adaptations following multiple-ligament knee reconstruction occur with altered knee kinematics during level walking.Angular momentum and arboreal stability in common marmosets (Callithrix jacchus).Kinematic variability, fractal dynamics and local dynamic stability of treadmill walking.Economy, Movement Dynamics, and Muscle Activity of Human Walking at Different Speeds.A dynamical systems analysis of assisted and unassisted anterior and posterior hand-held load carriage.Test-retest reliability of linear and nonlinear measures of postural stability during visual deprivation in healthy subjects.Low back skin sensitivity has minimal impact on active lumbar spine proprioception and stability in healthy adults.Balance during walking on an inclined instrumented pathway following incomplete spinal cord injury.Fractional Stability of Trunk Acceleration Dynamics of Daily-Life Walking: Toward a Unified Concept of Gait Stability.Linear and Nonlinear Gait Features in Older Adults Walking on Inclined Surfaces at Different Speeds.Dynamic stability of running: the effects of speed and leg amputations on the maximal Lyapunov exponent.
P2860
Q28387102-47CA55E2-B6F7-433F-8ACB-C5C614253E1EQ28387155-8F604700-B7B9-44C3-B671-898E6E5ADCF9Q28387587-48B905D7-247D-483D-9BB4-63C1F4945EB5Q28393121-6E2B5ADB-742D-4001-B9DD-1AF8488C0F99Q28393805-69295EB1-BDD3-4100-995E-C2D1BA729E1EQ28395616-3D06A2F5-05A0-4C86-A715-C82C87652BD1Q28396470-FDBE484B-A782-41A7-B823-A45DAAE15C6AQ28396857-2E3E94B5-032C-427C-92DC-14CFB6924DB6Q28397530-2E407126-26A2-4AC5-BEEB-1176C8C92951Q30586926-DBA00F3D-CE54-4DD2-8A58-E34B3EADC931Q30851350-F45070E3-F827-49BE-94CF-76EBE4E4E3ABQ33560097-56FC265C-E53F-4CC5-943A-318F3B35165FQ33784154-0125C45C-21D7-407F-9B68-04391604B711Q34083581-D0DDAF10-EE05-4F6E-8E6D-0BD58DBDFA01Q34175197-E4F3BC23-9E87-4C70-8C1B-C6A74E053797Q34279922-A95B3FB8-1411-49BE-8F59-A52279DF5476Q34395583-74520316-FAA0-4CCE-A84B-2A62E966648FQ34471976-F6D393FA-B8F7-4816-A8A4-F08460085287Q34621963-98E77A24-68EF-445F-932C-BCB1E3D46231Q34902800-BF33E800-711E-41A5-B75B-E280D39EAABAQ35070589-AC3BF4F1-58BA-4B4A-A620-90C6A44744ECQ36531059-D965DAD5-E8B2-4CF6-B6A7-8E8F669B285BQ36693609-CB450747-4F3E-487F-9CF4-D7B9726E6463Q36899039-68428424-1E09-4C1C-8731-45D6293F9D29Q37095996-C0EFC799-136A-42C4-ABF9-135C3D30B80EQ37141489-B27103A9-2720-4F69-83B5-458C54C963B7Q37908570-24C56183-C746-45AC-894C-02CF47958807Q38703193-826112EA-FAF7-4BEC-8AF7-BB3250546A93Q39041860-3022BD68-DCB2-4049-90E3-11255B0A1F69Q39845975-E89B9C72-0375-4A9E-9F8D-251955E40DBBQ41670712-248F1656-4901-4D81-8409-E57900FD38AEQ41935421-675B38B4-937D-45D4-864B-A268F8C95EB0Q42127243-709C5056-3B14-4E7F-91D2-DA9E88E9ECD8Q46617739-6932A096-C23B-4F22-99F6-061963233566Q47110468-E27792BC-B0BE-4BFF-8668-C1E913C8FFF1Q47449078-E5086DD8-81DE-4123-AF84-A122C8827A48Q48244672-CC43F583-333A-4133-BDF4-040B85C93AACQ50126475-5E2D052B-0D19-442D-8D17-715E665775EFQ50959382-52B13717-B5B7-4CA2-9666-8A6D1E4E3A0AQ51126659-DB63402F-2DF4-48D3-B40B-7329F786C140
P2860
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Is slow walking more stable?
@en
Is slow walking more stable?
@nl
type
label
Is slow walking more stable?
@en
Is slow walking more stable?
@nl
prefLabel
Is slow walking more stable?
@en
Is slow walking more stable?
@nl
P1476
Is slow walking more stable?
@en
P2093
Onno G Meijer
Peter J Beek
P304
P356
10.1016/J.JBIOMECH.2009.03.047
P577
2009-05-15T00:00:00Z