View clinical trials related to Mobility Limitation.
Filter by:"Office workers often spend long hours sitting, which can lead to stiffness and reduced mobility. By studying these two techniques AIS and MFR, we can determine which one is more effective in helping office workers to improve their flexibility and range of motion in the knee joint because their sedentary work environment often leads to musculoskeletal issues, including limited knee joint mobility. AIS involves stretching specific muscles while actively engaging opposing muscles to enhance the effectiveness of the stretch. It aims to increase the extensibility of muscles and improve joint mobility. On the other hand, MFR focuses on releasing tension and adhesions in the fascia, the connective tissue surrounding muscles and joints, to restore mobility and reduce pain. Understanding the benefits and effectiveness of these techniques will contribute to evidence-based practices in occupational health and help office workers maintain optimal joint health"
This study aims to characterize dynamic stability disorders in two conditions mainly affecting the elderly and with similar walking deficits: hydrocephalus at normal pressure and Parkinson's disease, to provide the most relevant monitoring criteria in usual care.
The objectives of this study are to: 1) evaluate whether Choose to Move (CTM) Phase 4 improves health outcomes in older adults who participate and 2) assess whether CTM Phase 4 is delivered as planned and what factors support or inhibit its delivery at scale. CTM Phase 4 is a 3-month, choice-based program for low active older adults being scaled-up across British Columbia (BC), Canada. The goals of CTM are to enhance physical activity, mobility and social connectedness in older adults living in BC, Canada.
A common problem among children with nervous system disorders is difficulty walking on their own. This has impacts beyond mobility including short and long-term health conditions associated with physical inactivity and different developmental experiences as a result of the mobility impairments. A robotic trainer can both provide rehabilitation and be an assistive device to help compensate for difficulties. Figuring out how to prescribe it is critical to improve daily life for children with significant disabilities. Preliminary use of robotic trainers have shown many benefits, such as better head control and improved independence in transfers, which greatly increases ability to live independently. Additionally, vital functions that are frequently impaired in those with less physical activity, such as sleep and bowel habits, seem to improve. Finally, these children enjoy using them. This project aims to determine who is most likely to benefit from training with a robotic trainer and investigate key details about the dose of training that is needed. Families that are already using or hope to use robotic training need this data to help improve their access to the intervention. Clinicians need this systematic approach to building evidence to ensure a future multi-centre randomized control trial is well designed. This study is needed to help improve the lives of those who live with significant disabilities. The objective is to evaluate the feasibility and impacts of delivering robotic gait training at home. Integral in this study is capturing the user perspectives. This will both provide preliminary evidence-based advice to potential users, their families, and clinicians as well as provide key metrics to design a definitive multi-centre randomized control trial. The investigators will provide robotic gait trainers, specifically Trexo robotic gait trainers, to participants and their families to use in their home communities for 12 weeks to evaluate the feasibility and impacts of intensive robotic gait training in people who cannot walk independently. Assessments will be completed throughout the duration of study, including before, during, and after the training intervention, with the goal of evaluating a wide range of feasibility considerations and impacts from robotic training.
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.
To correlate a smartphone-based assessment of mobility, stability, and posture with those derived from standard clinical tests among a heterogeneous cohort.
Older adults and those with chronic underlying health conditions are the most susceptible to COVID-19 and its complications. Although there has been a rapid response to studying the effects of COVID-19 in the acute stages, little is known about recovery over the longer-term. Older adults who survive the diseases are at risk of developing persistent mobility limitations due to extensive bed rest during hospitalization. For older patients and those with underlying frailty recovering from COVID-19, this could rapidly lead to significant physical deconditioning and rapid declines in mobility. Understanding the trajectory of functional recovery of older hospitalised patients with COVID-19 in the short- and long-term is critical to improving patient outcomes and informing health and rehabilitative interventions for survivors.
One-third of Canadians will be older adults (>65y) by 2050. Thus, healthy aging is a public health priority. Many older adult health promoting interventions have been implemented, yet few were scaled-up and sustained. Choose to Move (CTM) is an effective, adaptable, community-based health promotion program for older adults. CTM, co-created with government and community stakeholders, has been scaled-up across British Columbia (BC) using a phased approach (2015-2021). The investigators evaluated the impact of CTM on the health of seniors who participated and the results were extremely positive: CTM increased mobility, physical activity, social connectedness and improved mental health indicators like loneliness. When these outcomes were assessed again, one year after the end of CTM, these improvements had diminished. In this trial the investigators aim to determine if health benefits of CTM can be maintained by providing ongoing support to CTM participants. Booster interventions have been defined as "brief contacts beyond the main part of the intervention to reinforce previous intervention content" (Fjeldsoe et al., 2011, p. 601). Choose to Move - Next Steps (CTM-NS) is a two-year intervention where participants who recently completed CTM will receive different doses of a 'booster' program. Specifically, participants will be randomly allocated to virtual group meetings on a monthly (study arm 1; high dose) or quarterly (study arm 2; low dose) basis. Group meetings will be facilitated by an Activity Coach. Objectives: The investigators will conduct 1) impact, 2) implementation, and 3) economic evaluations of CTM-NS across 24 months. Hypotheses: For objective 1, the investigators hypothesize that improvements in older adult participant outcomes (primary outcome: mobility; secondary outcomes: physical activity, loneliness, social isolation, social connectedness, sitting time, screen time, social network, health status) obtained during CTM will be maintained over the 2 year CTM-NS study. Participants in the monthly group meetings (study arm 1) will maintain benefits to a greater degree than participants in the quarterly group meetings (study arm 2). Objectives 2 and 3 are descriptive and therefore have no hypotheses.
This study aims to explore the determinants of cognitive impairment among Indonesian geriatrics in an Old Age Home.
The objective of this study is to assess the feasibility and effectiveness of dedicated ambulator-assisted physical activity in lung transplant inpatients. The primary hypothesis is that an ambulator-assisted intervention for lung transplant patients will prove feasible and may result in improved frailty, hospital outcomes, including less need for inpatient rehabilitation and shorter length of stay in the hospital.