scholarly article | Q13442814 |
P50 | author | Muhammad Raheel Afzal | Q61066742 |
Jungwon Yoon | Q61066745 | ||
P2093 | author name string | Chang-Hee Lee | |
Min-Kyun Oh | |||
Young Sook Park | |||
P2860 | cites work | Predicting mobility outcome one year after stroke: a prospective cohort study | Q79791939 |
Reduced ambulatory activity after stroke: the role of balance, gait, and cardiovascular fitness | Q81016440 | ||
Rhythm perturbations in acoustically paced treadmill walking after stroke | Q83521311 | ||
Post-stroke balance training: role of force platform with visual feedback technique | Q84520620 | ||
Validity of the Pedar Mobile system for vertical force measurement during a seven-hour period. | Q51325154 | ||
Contribution of proprioception for calibrating and updating the motor space. | Q52210441 | ||
Functional electrical stimulation applied to gluteus medius and tibialis anterior corresponding gait cycle for stroke. | Q53650539 | ||
Gait Asymmetry in Community-Ambulating Stroke Survivors | Q57271958 | ||
Community ambulation after stroke: how important and obtainable is it and what measures appear predictive? 1 1No commercial party having a direct financial interest in the results of the research supporting this article has or will confer a benefit o | Q59544175 | ||
The prevalence of knee pain and symptomatic knee osteoarthritis among veteran traumatic amputees and nonamputees | Q59548839 | ||
Metabolic Cost of Overground Gait in Younger Stroke Patients and Healthy Controls | Q59589957 | ||
Symmetry in vertical ground reaction force is accompanied by symmetry in temporal but not distance variables of gait in persons with stroke | Q62628302 | ||
Gait recovery after hemiplegic stroke | Q70293546 | ||
Influence of leg muscle vibration on human walking | Q73054440 | ||
A treadmill-based system for measuring symmetry of gait | Q74239091 | ||
Validation of F-Scan pressure sensor system: a technical note | Q74748447 | ||
Locomotor-like movements evoked by leg muscle vibration in humans | Q77341531 | ||
A Wireless Sensory Feedback Device for Real-Time Gait Feedback and Training | Q30473365 | ||
Application of vibrotactile feedback of body motion to improve rehabilitation in individuals with imbalance | Q30475329 | ||
Effects of kinesthetic haptic feedback on standing stability of young healthy subjects and stroke patients | Q33443332 | ||
Symmetry and limb dominance in able-bodied gait: a review | Q34038490 | ||
Adjustments in gait symmetry with walking speed in trans-femoral and trans-tibial amputees | Q34183253 | ||
Measuring balance in the elderly: validation of an instrument | Q34284393 | ||
Locomotor adaptation on a split-belt treadmill can improve walking symmetry post-stroke | Q34296359 | ||
Noise-enhanced balance control in patients with diabetes and patients with stroke. | Q34467469 | ||
Motor learning: its relevance to stroke recovery and neurorehabilitation | Q34485016 | ||
Effect of step-synchronized vibration stimulation of soles on gait in Parkinson's disease: a pilot study | Q34646441 | ||
Gait disorders | Q35153086 | ||
Cell phone based balance trainer | Q35922678 | ||
Use of visual and proprioceptive feedback to improve gait speed and spatiotemporal symmetry following chronic stroke: a case series | Q35937163 | ||
Measurement of community ambulation after stroke: current status and future developments | Q36157779 | ||
Towards more effective robotic gait training for stroke rehabilitation: a review | Q36348106 | ||
An evaluation of patient perceptions to the value of the gait laboratory as part of the rehabilitation of primary lower limb amputees | Q36974458 | ||
The effect of vibrotactile feedback on postural sway during locomotor activities | Q37115480 | ||
Vibrotactile tilt feedback improves dynamic gait index: a fall risk indicator in older adults | Q37364650 | ||
Reliability of measurements of pressures applied on the foot during walking by a computerized insole sensor system | Q39430239 | ||
Assessment of vibrotactile feedback on postural stability during pseudorandom multidirectional platform motion | Q39926739 | ||
Evaluation of gait symmetry after stroke: a comparison of current methods and recommendations for standardization | Q39926787 | ||
Vibrotactile biofeedback improves tandem gait in patients with unilateral vestibular loss | Q42096652 | ||
A wearable device for real-time motion error detection and vibrotactile instructional cuing | Q46628024 | ||
The effects of vibrotactile biofeedback training on trunk sway in Parkinson's disease patients | Q46912868 | ||
Turning-based treadmill training improves turning performance and gait symmetry after stroke | Q46957451 | ||
Gait rehabilitation: a new biofeedback device for monitoring and enhancing weight-bearing over the affected lower limb. | Q47318824 | ||
Restoration of weight-shifting capacity in patients with postacute stroke: a rehabilitation cohort study. | Q47385292 | ||
Computerized visual feedback: an adjunct to robotic-assisted gait training | Q48322646 | ||
P275 | copyright license | Creative Commons Attribution 3.0 Unported | Q14947546 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 375638 | |
P577 | publication date | 2015-06-16 | |
P1433 | published in | BioMed Research International | Q17509958 |
P1476 | title | A Portable Gait Asymmetry Rehabilitation System for Individuals with Stroke Using a Vibrotactile Feedback | |
P478 | volume | 2015 |
Q36725780 | A Virtual Reality-Cycling Training System for Lower Limb Balance Improvement |
Q33448369 | A novel balance training system using multimodal biofeedback |
Q49599694 | A novel one arm motorized walker for hemiplegic stroke survivors: a feasibility study |
Q55077766 | An Automatic Gait Feature Extraction Method for Identifying Gait Asymmetry Using Wearable Sensors. |
Q39320814 | Assessing Walking Strategies Using Insole Pressure Sensors for Stroke Survivors. |
Q26749719 | Balance Improvement Effects of Biofeedback Systems with State-of-the-Art Wearable Sensors: A Systematic Review |
Q55501324 | Evaluating the Effects of Kinesthetic Biofeedback Delivered Using Reaction Wheels on Standing Balance. |
Q52585059 | Evaluating the effects of delivering integrated kinesthetic and tactile cues to individuals with unilateral hemiparetic stroke during overground walking. |
Q92105050 | Explicit Control of Step Timing During Split-Belt Walking Reveals Interdependent Recalibration of Movements in Space and Time |
Q90638030 | Motorized Shoes Induce Robust Sensorimotor Adaptation in Walking |
Q90189904 | Pressure-Sensitive Insoles for Real-Time Gait-Related Applications |
Q61455392 | Towards Inertial Sensor Based Mobile Gait Analysis: Event-Detection and Spatio-Temporal Parameters |
Q55002356 | Trainer in a pocket - proof-of-concept of mobile, real-time, foot kinematics feedback for gait pattern normalization in individuals after stroke, incomplete spinal cord injury and elderly patients. |
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