View clinical trials related to Mobility Limitation.
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 project aims to examine the efficacy of remote, caregiver-led tES/brain stimulation intervention targeted to improve memory, mobility, and executive functioning among older adults with mild cognitive impairment or mild dementia.
Low mobility during an acute care hospitalization is very frequent, particularly among older patients, and associated with adverse outcomes, such as persistent functional decline, institutionalization and death. However, increasing hospital mobility remains challenging because of the multiple existing barriers. The goal of this clinical trial is to test the effect of a multilevel intervention to increase hospital mobility, which addresses modifiable barriers and facilitators and does not require unavailable additional resources. This study aims to answer whether this intervention can improve mobility and patient-relevant outcomes such as life-space mobility and functional status. The multilevel intervention will target: 1. The patients, who will receive an information booklet, a customizable diary, an exercise booklet and an iPad with access to the videos of the exercise booklet. 2. The healthcare professionals (nursing staff and physicians) who will complete an e-learning, receive an oral presentation on the intervention, and receive a "mobility checklist" that reminds them of what they should assess daily regarding mobility. 3. The hospital environment, where posters will be hung in the wards, including walking itineraries, on topics of interest to older adults. In a first phase, the intervention will be pilot-tested in one ward of each hospital. The intervention will then be adapted based on patient and healthcare professional feedback. In a second phase, the intervention will be tested in a cluster randomized controlled trial, and compared to standard of care.
The clinical progress of the patients whose mobilization the investigators follow up with wearable technology products will be observed in the early postoperative period until discharge. In this way, the investigators primarily aim to examine whether the bowel movements of our more mobilized patients return earlier.
Investigators will examine the feasibility and health outcomes following a high-intensity functional training intervention for people with mobility-related disabilities. In addition to participant recruitment, attritions rates, and satisfaction, investigators will assess changes to both physical health outcomes (e.g., strength, body composition) and psychosocial outcomes (e.g., quality of life). The findings will provide evidence for the efficacy of HIFT to improve various health outcomes for a population that experiences health disparities in access to, and engagement in, community-based exercise.
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.
The aim of this study was to compare the effects of self-myofascial release, myofascial release with a physiotherapist and instrument assisted soft tissue mobilization (IASTM) techniques for the pectoralis minor muscle on pectoralis minor muscle length, rounded shoulder posture, glenohumeral joint total rotation range of motion (ROM) and skin temperature in asymptomatic individuals.
Many approaches to the surgical treatment of OF-P have been tried, but no one method has stood out as particularly successful. The placement of three implants, including implants that could minimise motion in the sacroiliac joint through early fixation and long-term fusion of the sacroiliac joint, can prevent micromotion in the fracture and thereby improve the clinical outcome of OF-Ps. The iFuse-3D implant was shown to be safe and effective for chronic sacroiliac pain in non-osteoporotic patients. The primary aim is to assess the proportion of patients operated on using iFuse-3D in conjunction with transiliac-transsacral screws who regain pre-fracture mobility by the time of hospital discharge.