View clinical trials related to Gait, Unsteady.
Filter by:The objective of the clinical study was to examine if practice could improve walking patterns associated with fall risks before patients with obesity underwent weight loss surgery. We hypothesized that patients would show improvements in their walking after completing the intervention. For the intervention, patients walked under five conditions: on flat ground at the beginning of the study, crossing three obstacle heights, and on flat ground at the end of the study for a total of 25 times.
Every year 1.7 million people sustain a traumatic brain injury (TBI) in the United States and of these, 84 % are considered mild TBI (mTBI). mTBI is common both in civilian and military populations and can be debilitating if symptoms do not resolve after injury. Balance problems are one of the most common complaints after sustaining a mTBI and often prevent individuals from returning to their previous quality of life. However, the investigators currently lack clear guidelines on when to initiate physical therapy rehabilitation and it is unclear if early physical therapy is beneficial. The investigators believe that the underlying problem of imbalance results from damage to parts of the brain responsible for interpreting sensory information for balance control. The investigators hypothesize that retraining the brain early, as opposed to months after injury, to correctly interpret sensory information will improve recovery. The investigators also believe this retraining is limited when rehabilitation exercises are performed incorrectly, and that performance feedback from wearable sensors, can improve balance rehabilitation. There are three objectives of this study: 1) to determine how the timing of rehabilitation affects outcomes after mTBI; 2) to determine if home monitoring of balance exercises using wearable sensors improves outcomes; and 3) to develop a novel feedback system using wearable sensors to provide the physical therapist information, in real-time during training, about quality of head and trunk movements during prescribed exercises. The findings from this research could be very readily adopted into military protocols for post-mTBI care and have the potential to produce better balance rehabilitation and quality of life for mTBI patients and their families.
The aim of this study was to identify the assistance effect of the new wearable hip assist robot, gait enhancing mechatronic system (GEMS) developed by Samsung Advanced Institute of Technology (Samsung Electronics Co, Ltd., Korea) during stair ascent by comparing the energy expenditure of elderly adults with and without the GEMS.
The aging population is at an exceptionally high risk of debilitating falls, contributing significantly to reduced independence and quality of life. It remains extremely challenging to screen for falls risk, and programs designed to mitigate falls risk have only modestly influenced the sizeable portion of the aging population experiencing one or more falls annually. Balance control in standing and walking depends on integrating reliable sensory feedback and on planning and executing appropriate motor responses. Walking balance control is especially dynamic, requiring active and coordinated adjustments in posture (i.e., trunk stabilization) and foot placement from step to step. Accordingly, using a custom, immersive virtual environment, the investigators have shown that sensory (i.e., optical flow) perturbations, especially when applied during walking, elicit strong and persistent motor responses to preserve balance. Exciting pilot data suggest that these motor responses are remarkably more prevalent in old age, presumably governed by an increased reliance on vision for balance control. Additional pilot data suggest that prolonged exposure to these perturbations may effectively condition successful balance control strategies. Founded on these recent discoveries, and leveraging the increase reliance on vision for balance control in old age, the investigators stand at the forefront of a potentially transformative new approach for more effectively identifying and mitigating age-related falls risk. The investigator's overarching hypothesis is that optical flow perturbations, particularly when applied during walking, can effectively identify balance deficits due to aging and falls history and can subsequently condition the neuromechanics of successful balance control via training.
The purpose of this study was to investigate the effects of gait training with the new wearable hip assist robot developed by Samsung Advance Institute of Technology (Samsung Electronics Co, Ltd, Korea) in elderly adults.
Anterior cruciate ligament reconstruction (ACLR) is high volume surgery, carried out in about 2800 patients annually in Denmark per year. ACLR patients (using hamstring auto-graft) have persistent hamstring strength deficiency when evaluated more than 1-2 years after ACL-reconstruction. The investigators have designed this randomized controlled trial (RCT) with the main purpose to investigate the effect of a targeted muscle strength exercise intervention on the neuromuscular rehabilitation of ACLR-patients compared with 'care-as- usual'. The study is designed as a prospective, superiority, parallel-group with balanced randomization (1:1) RCT (Level of evidence: II) with blinded allocation, and outcome assessment according to the CONSORT statement (Consolidated Standards of Reporting Trials). 50 patients with ACL reconstruction and persistent hamstring muscle deficiency, will be recruited at the outpatient clinic 1-year follow-up, and allocated to one of two 12 weeks' interventions, either a) the supervised progressive strength and neuromuscular exercise group (SNG) with supervised training twice weekly. Or b) the control group (CON) receiving patient education based on a home-based exercise regime of low intensity, defined as 'care as usual'. Outcome measures include, maximal isometric knee flexor muscle strength (primary outcome), knee extensor strength, and the Knee injury and Osteoarthritis Outcome Score (KOOS) (secondary outcomes). In addition, the following explorative outcomes will be investigated; hamstring to quadriceps strength ratios, the International Knee Documentation Committee Subjective Knee Form (IKDC), magnetic resonance imaging (MRI) to evaluate tendon regeneration of the hamstrings and finally kinetic/kinematic biomechanical outcomes of knee related functional tasks. To the investigators knowledge, this is the first RCT to investigate the efficacy of combined progressive resistance training and neuromuscular exercise in the late rehabilitation phase in patients demonstrating persistent limb-to-limb knee muscle asymmetry following ACLR. Reduced hamstring strength represents a potential risk factor for secondary ligament rupture and accelerated progression of osteoarthritis (OA). If deemed effective, the intervention paradigm introduced in this study may help to improve current treatment strategies.
Gait stability is reduced as early as from age 40 to 50. Gait stability can be improved in patients with neurological diseases or in healthy elderly persons with exercises. There is evidence that mental practice, also called motor imagery, the imagination of performing a movement, can also improve an activity or balance. The effective performance and the imagination of a task activates some overlapping central areas and neural networks, which might explain the improvements after motor imagery. The investigators set out to test the feasibility of such a study using an open label randomized cross-over trial including 32 persons aged 40 years or more. The primary aim is to evaluate whether the instructions are clear, the intervention and the study procedures are acceptable and to assess the proportion of participants withdraw from the study (drop outs). Secondary aims are the assessment of between group differences in the changes of the gait stability.
This randomized clinical trial targets 248 community-dwelling older adults with impaired mobility (i.e. walking slowly; gait speed < 1.20 m/s). The trial compares a 12 week "standard-plus" program of strength, endurance, flexibility plus task specific timing and coordination training to a standard 12 week strength, endurance and flexibility program. The primary outcome is gait speed at 12 weeks. Secondary and tertiary outcomes represent components of the intervention and measures of activity and participation. Delayed and sustained effects of the intervention are examined at 24 and 36 weeks.
This study evaluates the screening accuracy of a device (OAK) in assessing fall risk in the elderly, compared to the assessment provided by the Algorithm for Fall Risk Assessment of the Centers for Disease Control and Prevention (CDC). The OAK device is a technologic system, based on virtual reality. It allows to quickly perform a fall risk assessment integrating clinical indexes of the Brief-BESTest (The Balance Evaluation System Test), and kinematic and posturgraphic indexes. The participants interact with the OAK device through simple exercises, then the device provides an assessment of their functional mobility, equilibrium and postural reactions.
This is a pilot study for evaluating the feasibility of using High Intensity Interval Training in geriatric hospitalized patients compared to the standard current rehabilitation practice.