| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Andreas Skiadopoulos | Q87081484 |
| P2093 | author name string | Nicholas Stergiou | |
| Kendra K Schmid | |||
| Harlan R Sayles | |||
| Emily E Moore | |||
| P2860 | cites work | "Walking" through the sensory, cognitive, and temporal degradations of healthy aging | Q88612655 |
| Do spatiotemporal parameters and gait variability differ across the lifespan of healthy adults? A systematic review | Q89179471 | ||
| Ensuring accurate estimates of step width variability during treadmill walking requires more than 400 consecutive steps | Q92323205 | ||
| The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration | Q21092360 | ||
| Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement | Q21195843 | ||
| Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement | Q21562278 | ||
| Bias in meta-analysis detected by a simple, graphical test | Q24685585 | ||
| Gait variability: methods, modeling and meaning | Q24812979 | ||
| Too much or too little step width variability is associated with a fall history in older persons who walk at or near normal gait speed | Q24814146 | ||
| Can stability really predict an impending slip-related fall among older adults? | Q27310201 | ||
| The feasibility of creating a checklist for the assessment of the methodological quality both of randomised and non-randomised studies of health care interventions | Q27860564 | ||
| Operating characteristics of a rank correlation test for publication bias | Q27860653 | ||
| Measuring inconsistency in meta-analyses | Q27860655 | ||
| Meta-analysis in clinical trials | Q27860779 | ||
| Kinematic measures for assessing gait stability in elderly individuals: a systematic review | Q28393121 | ||
| Direction-dependent control of balance during walking and standing | Q30490312 | ||
| Age-related changes in gait for multi-surface terrain | Q33303970 | ||
| Proprioceptive sensibility in the elderly: degeneration, functional consequences and plastic-adaptive processes | Q33369656 | ||
| Undue reliance on I(2) in assessing heterogeneity may mislead | Q33387460 | ||
| Dynamic principles of gait and their clinical implications | Q33628937 | ||
| Gait variability and the risk of incident mobility disability in community-dwelling older adults | Q33805714 | ||
| Influence of simulated neuromuscular noise on movement variability and fall risk in a 3D dynamic walking model | Q34288287 | ||
| Mechanical and metabolic requirements for active lateral stabilization in human walking. | Q34316725 | ||
| Gait changes in older adults: predictors of falls or indicators of fear. | Q34419126 | ||
| Effects of walking-induced fatigue on gait function and tripping risks in older adults | Q34622296 | ||
| The Hartung-Knapp-Sidik-Jonkman method for random effects meta-analysis is straightforward and considerably outperforms the standard DerSimonian-Laird method | Q35096756 | ||
| Advanced age brings a greater reliance on visual feedback to maintain balance during walking | Q35215059 | ||
| Effects of combined exercise on gait variability in community-dwelling older adults. | Q35533629 | ||
| Gait variability in healthy old adults is more affected by a visual perturbation than by a cognitive or narrow step placement demand | Q36113434 | ||
| Interval of Uncertainty: An Alternative Approach for the Determination of Decision Thresholds, with an Illustrative Application for the Prediction of Prostate Cancer | Q36187386 | ||
| The test-retest reliability and minimal detectable change of spatial and temporal gait variability during usual over-ground walking for younger and older adults | Q36725472 | ||
| Contour-enhanced meta-analysis funnel plots help distinguish publication bias from other causes of asymmetry | Q37185996 | ||
| The reliability and validity of measures of gait variability in community-dwelling older adults | Q37251002 | ||
| Nonlinear dynamics indicates aging affects variability during gait | Q40586902 | ||
| Gait variability and fall risk in community-living older adults: a 1-year prospective study | Q40692815 | ||
| GOSH - a graphical display of study heterogeneity | Q40849134 | ||
| Effects of aging on the relationship between cognitive demand and step variability during dual-task walking | Q41444008 | ||
| Energetic cost of walking with increased step variability | Q42197867 | ||
| A refined method for the meta‐analysis of controlled clinical trials with binary outcome | Q43848299 | ||
| Separating the effects of age and walking speed on gait variability | Q44324266 | ||
| Study of the association between gait variability and physical activity. | Q45781612 | ||
| Older adults have unstable gait kinematics during weight transfer | Q47313082 | ||
| Effects of surface irregularity and lighting on step variability during gait: a study in healthy young and older women | Q47606302 | ||
| The effect of lateral stabilization on walking in young and old adults | Q50861462 | ||
| Summary of the Updated American Geriatrics Society/British Geriatrics Society clinical practice guideline for prevention of falls in older persons | Q51615396 | ||
| Variability of step kinematics in young and older adults | Q51662141 | ||
| Step width variability, but not step length variability or step time variability, discriminates gait of healthy young and older adults during treadmill locomotion | Q51683236 | ||
| Walking variability and working-memory load in aging: a dual-process account relating cognitive control to motor control performance | Q51953989 | ||
| A graphical method for exploring heterogeneity in meta-analyses: application to a meta-analysis of 65 trials | Q52032770 | ||
| Statistical methods for assessing measurement error (reliability) in variables relevant to sports medicine | Q52182223 | ||
| Challenging the motor control of walking: Gait variability during slower and faster pace walking conditions in younger and older adults | Q53087604 | ||
| Active control of lateral balance in human walking | Q53906602 | ||
| Control of human gait stability through foot placement. | Q55652155 | ||
| Outlier and influence diagnostics for meta-analysis | Q57744585 | ||
| Measuring step kinematic variability on an instrumented treadmill: how many steps are enough? | Q73586329 | ||
| Age-related changes in spatial and temporal gait variables | Q73588113 | ||
| A prospective study of laboratory and clinical measures of postural stability to predict community-dwelling fallers | Q74204009 | ||
| The effect of gait speed on lateral balance control during walking in healthy elderly | Q79342136 | ||
| A comparison of heterogeneity variance estimators in combining results of studies | Q80219001 | ||
| Interstride trunk acceleration variability but not step width variability can differentiate between fit and frail older adults | Q81244865 | ||
| The variable component of lateral body sway during walking in young and older humans | Q81597998 | ||
| Gait variability in younger and older adult women is altered by overground walking protocol | Q84510539 | ||
| Balance responses to lateral perturbations in human treadmill walking | Q84576309 | ||
| P433 | issue | 1 | |
| P304 | page(s) | 41 | |
| P577 | publication date | 2020-03-05 | |
| P1433 | published in | Journal of NeuroEngineering and Rehabilitation | Q15758015 |
| P1476 | title | Step width variability as a discriminator of age-related gait changes | |
| P478 | volume | 17 |
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