View clinical trials related to Walking, Difficulty.
Filter by:In this project, the team plans to test the impact of FAST, its brief home-based strength training program which includes performance goal setting, to a program for home (BAND TOGETHER) that is similar to one offered by Silver Sneakers, available online to millions of older adults, and includes strength, balance, and aerobic exercises. The team hypothesizes that the brief program (FAST) will improve leg function better than the standard program (BAND TOGETHER), by encouraging older adults to be more consistent with using it and to try harder when they do.
The study aims to use novel mobile imaging techniques with high-density electroencephalography (EEG) to quantify cortical processes synchronized to the biomechanics of walking. Here, the study has two aims - the primary aim is to quantify the cortical processes that contribute to gait dysfunction early post-stroke, and the second aim is to determine how cortical processes are mediated by mechanical assistance during early gait training post-stroke. Participants will wear an electroencephalography (EEG) cap to measure brain activity and other non-invasive physiological sensors. Participants will be asked to perform different tasks, such as walking at different speeds and walking with different levels of body weight support.
To test the hypothesis that home-based leg heat therapy improves functional capacity, vascular function, and exercise hyperemia in older adults.
This study is a randomized trial of 100 older adults with mobility disability, who performed a similar brief daily, resistance training program. The investigators set out to answer the following question "Will a digital, brief daily exercise program be feasible, acceptable, and effective among older adults with walking limitations?" To answer that question, participants were assigned to an intervention or delayed-treatment control group. Intervention participants were assigned to complete two 30-second lower body exercises and two 30-second upper body exercises. Fitness tests were completed remotely three times during the 12-weeks (i.e., at baseline, week 6, week 12).
The current study aims to investigate the effect of walking with the SAIRE smart walker on spatiotemporal parameters and gait kinematics in a population who suffer from difficulties during gait, and compare this to walking with a standard walker or no walking aid.
Cerebral palsy (CP) is a movement and posture disorder caused by an injury to the developing brain, with a prevalence in Sweden of about 2/1000 live births. Children with CP have walking difficulties, and decreased muscle mass and muscle function as compared to typically developing (TD) children. The extent of disability in CP depends on the severity and timing of the primary cerebral lesion and can be classified with the gross motor function classification system (GMFCS E&R) that ranges from walking without limitations (I) to being transported in a wheelchair (V). Muscle function commonly deteriorates with age and contracture development is often clinically evident as early as at 4 years of age. In addition to being thinner and weaker, skeletal muscle in children with CP develop poor quality, i.e., increasingly higher amounts of fat and connective tissue at the expense of functional, contractile proteins. How long-term standard treatments for children with spastic CP including, training and orthotics use, with botulinum toxin (BoNT-A) treatment as an adjunct, affects muscle on functional, structural, and microscopic level in CP has not yet been published. Therefore, we will investigate the muscle function as well as functional mobility, structure, and spasticity. We will conduct functional mobility tests. Muscle strength will be measured with a rig-fixed dynamometer, and muscle structure will be measured with magnetic resonance imaging. The spasticity will be instrumentally assessed by the NeuroflexorTM, a machine measuring resistance in a muscle when a pedal is passively moving the participants foot at two different speeds. We will follow participants, for 1 year, with 4 measurements during this period. In order to better treat these children, we need to better understand the complex, interrelated interactions of musculoskeletal properties and function in children with CP. Our hypothesis is that muscle structure and function is affected by standard clinical treatments sessions including routine botulinum toxin treatment. Analyzing the effect of standard care may help planning of more effective clinical treatments in the future.
This study aims to provide a novel scientific contribution through addressing critical knowledge gaps, examining the effects of attentional focus instructions on real-time (state) conscious movement processing propensity, gait parameters, and muscle efficiency in older adults in Hong Kong at risk of falling while walking in a challenging environment. The study results could update our scientific understanding of the mechanisms of conscious movement processing and the interventional effects of attentional focus instructions in older adults. It could ultimately enhance the methodology used for developing the most appropriate psychomotor gait re-education intervention in rehabilitation and provide clear guidelines on the exact attentional focus training that older adults require. Further, it could mitigate the effect of conscious movement processing and risk of falling in older adults.
Apparently healthy and well-functioning community dwelling 70-80 year-olds will be recruited to the study. All subjects undergo pre-screening for suitability and a physicians examination, as well as 7-day habitual daily steps are measured to ascertain baseline physical activity. Half of the recruited subjects (n=40) will be randomized into the intervention group and half (n=40) randomized into the control group. The intervention group is then required to reduce their daily steps to <2000 for a 2-week period. Thereafter, the intervention group participates to a 4-week strength+endurance training rehabilitation program and no longer has restricted daily step count. The control group continues their normal habitual physical activity level throughout the 6-week study period.
The purpose of this study is to examine the reflex excitability of the rectus femoris in individuals with and without post-stroke Stiff-Knee gait. We use electrical stimulation of the peripheral nerve innervating the rectus femoris for a well-controlled reflex stimulus. We are investigating whether reflex excitability of the rectus femoris correlates with gait kinematics.
Walking difficulties, mobility decline and falls are prevalent among older adults. The incidence of each of these increases with age and the presence of each can negatively affect the quality of life in older adults. The purpose of this prospective clinical trial is to evaluate the efficacy of the Power Centering for Seniors multimodal, twice weekly, 12-week group intervention program to improve the mobility and quality of life in older, community-dwelling adults.