View clinical trials related to Fall.
Filter by:The objective of this study is to determine which gait parameters measured at home using e FeetMe® Insoles are associated with a risk for falls in a patient population suffering from osteoporosis and a higher with high risk of fractures and falls. Each patient will be asked to go to 3 visits at the Cochin hospital, and to wear the soles after each of these visits during 3 days, at home, to record the data, so that it reflects walking patterns of the patient in his/her daily life and activities. At the eachvisit, clinical tests to assess fall risk will be performed (Timed Up and Go test, one foot stance, Short Physical Performance Battery and 6 minutes walking test ). The patients will be supplied with a pair of FeetMe® Monitor Insoles, return home and walking parameters will be recorded for 3 to 10 consecutive days.
Approximately one-third of older adults report one or more falls each year, with devastating physical, psychological, social, and financial consequences. Conventional gait analysis performed in a controlled laboratory environment can identify balance deficits, but unfortunately, such tools are bulky, time-consuming, and dependent on qualified technicians to properly collect and evaluate the data. Furthermore, these one-time gait and balance assessments cannot monitor changes in ambulatory strategies longitudinally and do not reflect performance in real-life environments, where falls commonly occur. While recent developments in smartphone-based evaluations have demonstrated great utility and accuracy in assessing gait performance, it is vital to evaluate participant compliance, ease-of-use, and feasibility of this technology using a smartphone in the home environment. It is also paramount that interventions which improve balance be accessible to older adults. While four-week balance training routines have been shown to improve balance performance among older adults, it is unknown whether such interventions can be conducted remotely in a safe and compliant manner. Furthermore, the retention of balance function following intervention is unclear. Subsequently, the goals of this study are to evaluate technology that can both remotely monitor balance and prescribe intervention to older adults. With the current burdens on the health care system and the burgeoning population of older adults, it is essential that tools be provided to older adults that are easy to follow, attractive, and improve balance performance. Therefore, the objective of this project is to investigate the utility of a valid, easily accessible, smartphone application to assess balance and provide personalized exercise for older adults as a stand-alone, field-based medical device. The aims of this proposal are to (1) utilize a smartphone application to longitudinally evaluate gait and standing balance over an 8-week period in the home environment among 30; and (2) determine the feasibility and efficacy of a smartphone application to promote exercise and evaluate gait changes for up to 2 months in this older adult population following a 4-week balance intervention. The long-term goal of this project is to provide a holistic home-based gait monitoring and intervention tool for integration in routine clinical care.
The aim of this study is to translate the original English version POMA scale into Urdu and also determine cultural adaptation to establish its validity and reliability. This study also aims to correlate Performance oriented Mobility Assessment (POMA) scales with time up and go test in elderly population.
The overarching objective of this study is to improve fall prevention efforts in community-dwelling older adults with peripheral artery disease (PAD) to reduce falls. To accomplish this, the investigators will conduct a feasibility study and pilot the addition of a balance exercise component to existing supervised exercise therapy (SET) programs for PAD. This intervention may be an effective way to help older adults with PAD self-manage their leg pain and walking impairments as well as fall risk. The long-term goal of this research is to reduce morbidity and mortality associated with falls in older adults with symptomatic PAD through the development and evaluation of a balance intervention component implemented within existing exercise programs. Findings from this research may also be translated to the implementation of disease management programs for other chronic conditions associated with fall risk. The rationale for this research is to determine improve disease-specific, comprehensive and fall prevention strategies for older adults with PAD.
The goal of this project is to further develop and evaluate a computerized cognitive-training program designed to extend older adults' functional independence and reduce accidental falls (i.e., reduce factors that contribute to fall risk; including cognitive abilities/executive functions). This intervention may benefit a large population of vulnerable older adults with elevated fall risk and lack of long-term viable treatment options.
Falls are a serious problem in the elderly leading to injuries, morbidity, and consequently a heavy impact on the individual suffering, and society at large. This study aims to investigate the effectiveness of a remote fall prevention program in comparison with a similar face-to-face program. This study design is a randomized control trial (RCT) with a cross-over in group allocation. The population will include 106 home-dwelling elderly, aged 65 years or more, with low to moderate risk of fall. Participants will be randomized to start intervention in the remote or face-to-face group. Training will be twice weekly for 3 months, after which there will be two weeks of washout, followed by a cross-over between groups. Outcome measures will include fall rate over a year (primary measure), balance, functional testing, subjective measures of fear of falls, quality of life, satisfaction from intervention, adherence, and compliance.
This study will test clinical and cost effectiveness of an integrated tele- and bachelor's-level counselor/coach delivered behavioral activation (BA) and fall prevention (FP) for low-income homebound older adults. The long-term objective of the proposed study is to improve access to depression treatment and fall prevention for growing numbers of low-income homebound seniors. We plan to recruit 320 low-income, racially diverse homebound seniors who are served by a home-delivered meal (HDM) program and other aging-service agencies in Central Texas. In a 4-arm, pragmatic clinical trial with randomization prior to consent, the participants in the integrated Tele-BA and FP (TBF hereafter) arm will receive 5 Tele-BA sessions and 4 in-home FP sessions. Those in the Tele-BA or FP alone arms will receive the respective intervention and 4 bimonthly telephone check-in (booster) calls, and those in the Attention Control (AC) arm will receive 5 weekly telephone check-in calls followed by 4 bimonthly follow-up calls. Follow-up assessments will be at 12, 24, and 36 weeks after baseline.
People worldwide are living longer. Today, for the first time in history, most people can expect to live into their sixties and beyond. By 2050, the world's population aged 60 years and older is expected to total 2 billion, up from 900 million in 2015. Today, 125 million people are aged 80 years or older. By 2050, there will be almost this many (120 million) living in China alone, and 434 million people in this age group worldwide. By 2050, 80% of all older people will live in low- and middle-income countries. As we age, we lose balance function through loss of sensory elements, the ability to integrate information and issue motor commands, and because we lose musculoskeletal function. Diseases common in aging populations lead to further deterioration in balance function in some patients. study aims to determine the Effect of Virtual Reality exercise regimen on postural stability and gait dynamics in elderly population. By obtaining these results we can recommend and effective balance training regime which can be implemented in health care system and hence resulting in decrease fall events in geriatric population and also reduce fall related health care financial burden on economy.
This longitudinal cohort study investigates cognitively normal participants with and without preclinical Alzheimer disease (AD) in order to examine: (1) the relationship between falls and functional mobility in preclinical stages of AD; and (2) a hypothesized model of central and peripheral mechanism(s) underlying falls and functional mobility in preclinical stages of AD.
Randomized clinical trial of 310 older adults over 75 years old recruited from the Falls Units of Geriatric Departments in 4 three University Hospitals in Spain (Pamplona, San Sebastián, Albacete and Barcelona). Participants who met inclusion criteria will be randomized to the usual care group (Otago exercise program) or the Vivifrail-Cog Intervention (a combination of physical exercise Vivifrail program and cognitive training). The main objective of the present randomized clinical trial is to investigate the effect of the combined intervention (exercise and cognitive intervention) in frail older participants living in the community and at risk of falling. The main endpoint will be the rate of falling in the following year. Secondary endpoints include physical performance, muscle strength, cognitive performance, hospitalizations, institutionalization, depression and quality of life.