View clinical trials related to Gait Disorders, Neurologic.
Filter by:Individuals with multiple sclerosis (MS) experience in impairments in mobility and cognition that increase the risk for accidental falls. More than 50% of individuals with MS experience injurious falls within a 6-month period. Current interventions to improve fall risk have focused on forward walking (FW) and balance training, resulting in small declines in the relative risk for falls with a large degree of variability. Interestingly, motor differences between MS and healthy controls are more pronounced in backward walking (BW), yet no studies have investigated BW training as an intervention to reduce fall risk in persons with MS. This study will investigate the feasibility, acceptability and impact of BW training compared to forward walking training on motor function and fall risk in persons with MS.
This study will conduct a preliminary evaluation of and obtain user data on a novel game-based visual interface for stroke gait training. Study participants will complete one session comprising exposure to gait biofeedback systems in an order determined by randomization. Participants will be exposed to 2 types of biofeedback interfaces: - newly developed game-based interface (projector screen display) - traditional, non-game interface
Shortening of the abductor lever arm is a particular concern with the SHS, and the resultant biomechanical alterations impairs gait, including decreased cadence and increased double support time on the injured side. The use of a IM nail device may stop this shortening and improve functional parameters in this patient cohort
Phase II of this study includes a pragmatic clinical trial which will take place at Northwest Rehabilitation Associates (NWRA) in Salem, OR to verify the efficacy of the system in a physical therapy clinic.
Parkinson's Disease (PD) patients suffer from gait impairments responsible for falls and bad quality of life: reduced speed and stride length, randomness in stride duration variability (reduced Long-Range Autocorrelations (LRA)). On the other hand, treadmill walking has shown long-term effectiveness on PD patients' gait and quality of life. The purpose of this single blinded randomized controlled trial is to study the effect of a combination of immersive virtual reality and treadmill walking on LRA.
In order to evaluate the effectiveness of musical treadimll on gait parameters in patients with Parkinson's Disease, the investigators compare the outcome measures on two group of patients: one will undergo a 4-week daily musical treadmill training and one will undergo a 4-week daily traditional treadmill training
The purpose of this study is to determine the utility of a performance measure for the dual-task of gait and considering people with multiple sclerosis have both cognitive and motor problems, the secondary aim of this study is to determine the effectiveness of a gait-specific dual-tasking intervention for ambulatory individuals with multiple sclerosis.
The study is designed to evaluate the use of electromagnetic tracking in transversal plane femoral derotation osteotomies. The goal is to raise the precision of the surgical procedure in order to improve the outcome in short- and long term. All patients are examined with an instrumented 3D gait analysis pre- and one year postoperatively. The electromagnetic tracking system is evaluated against a base line CT or MRI scan serving as reference standard pre- and postoperatively.
INTRODUCTION: Mental practice (MP) and action observation (AO) are characterized as cognitive strategies that contribute to motor planning and learning in diverse populations. Individuals with Parkinson's Disease (PD) are recent targets, since, with disease progression, they need external strategies to aid in motor organization. However, there is still no evidence of the efficacy of MP and AO in the gait of PD. OBJECTIVES: To compare the effects of physical practice preceded by MP and AO on gait performance in individuals with Idiopathic PD (IPD). METHODS: A controlled, randomized, single-blind clinical trial with 66 individuals with IPD, aged between 50 and 75 years, without cognitive deficit and in the moderate phase of the disease will be performed. For the inclusion and characterization of the sample, the following instruments / equipment will be used: (1) Identification form (sociodemographic, clinical and anthropometric aspects); (2) Mini Mental State Examination and Montreal Cognitive Assessment (cognitive level); (3) Hoehn and Yahr Scale (level of physical disability); (4) Revised Movement Imagery Questionnaire (sharpness of the mental image); (5) Qualisys Motion Capture Systems® (gait kinematics); (6) Emotiv Epoc + (electroencephalographic activity); (7) Unified Parkinson's Disease Rating Scale - UPDRS (motor function and activities of daily living); (8) Timed Up and Go Test - TUG Test (mobility); and (9) Parkinson's Disease Questionnaire - PDQ-39 (quality of life).Participants included will be randomly assigned to two groups: experimental (n = 33), who will participate in MP + AO and physical gait practice; and control group (n = 33), who will participate only in the physical practice of gait. Both groups will be submitted to 12 training sessions (3x / week, for 4 weeks) and will be reevaluated 10 minutes, 7 days and 30 days after the last training session with respect to items (4), (5), (6) and (8) of the evaluation. Primary outcomes will be velocity, stride length and range of motion of the hip and the secondary ones will be sharpness of the mental image, electroencephalographic activity and performance in the TUG Test. The normality in the data distribution will be verified through the Shapiro-Wilk test. The "t" test and the Mann-Whitney test will be used to verify the homogeneity of the groups in the baseline. A repeated measures ANOVA will verify the interaction between the groups at the moments observed.
The prevalence of neurodegenerative diseases will increase over the next decades driven by ageing population. It seems important to develop reliable, replicable and accessible diagnostic tools. This is a prospective study whose objective is to study the spatio-temporal parameters of gait in patients with Alzheimer's and Lewy body diseases. 64 patients were included in this study. A comparison of the two pathologies was conducted, followed by an analysis based on four groups (mild, severe Alzheimer's disease, mild, severe Lewy body disease) and a study of the severity of the diseases. To study these parameters, we used the Gaitrite treadmill. The analysis of spatio-temporal parameters of walking in Alzheimer's disease and Lewy body disease enables to identify discriminating variables between the two pathologies. The probability of suffering from an Alzheimer's disease decreases with the pace increase but increases with variations in length of the step, and with the rotation of the foot. While the probability of suffering from Lewy body disease increases with the pace, variations in the step duration, and the duration of double support. These results are interesting but do not allow to establish a diagnostic score for these two diseases. The monitoring of the variations of these parameters at individual level would probably be more relevant and would enable to detect dual pathologies.