View clinical trials related to Accidental Falls.
Filter by:Postmenopausal women suffer from a series of negative health factors, such as decreased bone and muscle mass and physical performance, increasing the risk of falls and decreasing quality of life. Therefore, intervention strategies aimed at mitigating these factors are essential. A technique that has been studied and can reverse these factors is whole-body vibration (WBV), however studies present contradictory results and the main confounding factor appears to be related to the type of vibration (synchronous or side-alternating). Therefore, the primary objective of this project is to verify the effects of 12 months of whole-body vibration on different devices on bone mineral density measurements in postmenopausal women. As a secondary objective, the effects on muscle mass, physical performance, quality of life and falls will be verified. 228 postmenopausal women will participate in the study and will be randomized to: triplanar vibration (synchronous); side-alternating vibration; or false vibration. The interventions will last 12 months and will occur three times a week on non-consecutive days. The following assessments will be carried out at baseline, 6-months and 12-months: bone mineral density and muscle mass by DXA equipment, muscle thickness by ultrasound, peak torque of the knee extensor and flexor muscles by an isokinetic dynamometer, hand grip, balance static postural and vertical jump on a force platform, dynamic balance using the Timed Up and Go test, SPPB battery, fear (FES-I) and incidence of falls and quality of life (SF-36).
The goal of this mixed methods cohort study is to explore how an innovative game-based, technology-enabled home exercise software compares to a conventional home-based exercise program in older adults at risk for falls. The main question[s] it aims to answer are: - Does the exercise software lead to better or similar adherence to exercise recommendations compared to the conventional exercise program? - Does the exercise software improve user strength and balance, as measured by relevant physical function scores? - Do participants find the exercise software enjoyable and acceptable? Participants will be approached during their initial fall risk assessment to see if they are interested in taking part. Those who agree to participate will choose either the exercise software or the conventional exercise program and will be instructed to: - Perform their respective exercise program for a minimum of 3 times a week for 3 months. - Return to clinic in 3 months to see our C-FAST physiotherapist for reassessment of their relevant physical functional tests. - For conventional exercise program only - Document exercise compliance in an exercise log. - For software program only - Complete a survey regarding the use of the technology. Researchers will compare software-use cohort versus conventional exercise program cohort to see if adherence and physical function scores are comparable.
This study aims to guide older people living in the community on appropriate strategies within a fall prevention program. This program is aimed at training in daily activities carried out through group workshops (guided by a physiotherapist) and at preventing risk situations at home.
The goal of this study is to conduct a randomized pilot multi-arm clinical trial comparing a standard course of physical therapist provided pelvic floor muscle training (PFMT) to pharmacologic therapy for the treatment of urgency urinary incontinence (UUI) or Overactive Bladder (OAB) in older women at high risk of falling. The central hypotheses for this project are i) a randomized pilot multi-arm clinical trial comparing PFMT to drug treatment for UUI or OAB in older women at high risk of falling is feasible; and ii) treatment approach can influence both UI and fall related outcomes in this patient population. The main questions it aims to answer are: 1) Is a multi-arm clinical trial comparing PFMT to drug treatment for UUI or OAB in older women at high risk of falling feasible? and 2) How does treatment approach influence both OAB and fall related outcomes in this patient population? Women (16 per arm) 60 years and older with UUI or OAB who screen positive for high fall risk will be randomized to one of three standard of care treatment arms and followed for six months. The three treatment arms are i) a 12-week structured behaviorally based pelvic floor muscle training (PFMT) intervention administered by physical therapists in the clinic; ii) a 12-week course of the beta-3 agonist, Mirabegron; and iii) a 12-week course of the antimuscarinic, Trospium Chloride. Researchers will compare study feasibility and OAB symptom related outcomes across the three groups to see if a larger clinical trial is warranted.
To determine the efficacy of a dual-task tai ji quan training therapy in reducing the incidence of falls in older adults with mild cognitive impairment.
The study will use a randomized controlled trial design to evaluate the potential of incorporating physical therapy exercises (primary prevention strategy) within an evidence-based intervention called Walk with Ease to reduce falls and fall risk in older, community-dwelling older adults. The integrated process and outcome evaluation will determine the relative effectiveness of individually prescribed exercises (compared to standardized exercises) as well as the potential of 'habit training' resources to improve compliance with exercises in this population. The study, conducted through a local clinical / community partnership will advance both science and practice while also informing implementation strategies needed to promote broader dissemination.
The goal of this interventional study is to compare in community dwelling elderly people the effects of two physical activity programs to prevent accident falls : "SILVER XIII EQUILIBRE" program and "VIVIFRAIL" program, on several risks factors such as executive functions and functional capacities. Participants will perform a 1 hour physical activity session during 10 weeks and effects will be measured using a multidimensional test battery. "SILVER XIII EQUILIBRE" program contains cognitive-motor exercises where participants have to perform two tasks simultaneously such as answering math questions while walking whereas "VIVIFRAIL" program contains multifactorial exercises such as walking, balance training and resistance training in single-task condition. The main question it aims to answer is : • Does physical activity enriched with simultaneous cognitive exercises enhances the effects ?
The research is to solve the problem of the high incidence of falls among older adults in China. To this end, the investigators will develop a multi-dimensional fall prevention program by cultivating nursing students as community intervention personnel to address the current shortage of fall prevention programs and professional intervention in China. The research will make an important contribution to health care.
In this project, the investigators propose to demonstrate the feasibility of remotely-monitored, caregiver (or spouse)-administered, home-based tDCS intervention to improve mobility in ambulatory older adults with recent falls. This is a three-phase feasibility study in older, ambulatory adult participants at risk of falling due to a loss of balance (participant faller, PF) together with a willing and able participant administrator (PA) that is available during weekdays to administer tDCS (transcranial direct current stimulation) to the PF. Phase 1 is focused on the development and refinement of our training materials for home-based tDCS for PF/PA pairs. The objectives of this phase: 1. Identify areas of confusion and challenges for older adults. 2. Refine our training materials to accompany the home-based tDCS system. In Phase 2, the investigators will complete a pilot trial in 12 PF/PA pairs to assess the feasibility of deploying home-based tDCS in larger clinical trials, and to prepare for the development and implementation of such trials. The objectives of this phase: 1. Determine the mean/range number of visits needed for in-person training. 2. Compliance and retention with the study protocol. 3. Safety/side effects of home-based tDCS, as compared to previously established laboratory-based tDCS data. The investigators hypothesize that adult PAs are able to successfully administer home-based tDCS to PFs. The investigators also expect that PF/PA pairs will exhibit excellent adherence to the intervention and that the prevalence and severity of reported tDCS side-effects will be similar to that observed in previous laboratory-based studies. In Phase 3, the investigators will complete a pilot trial in up to 18 PF/PA pairs; i.e., those who have previously successfully completed either Phase 1 or Phase 2. The study objectives/aims for Phase 3 are: 1. Further explore compliance and retention with the study protocol over a longer time period 2. Identify safety/side effects of home-based tDCS over a longer time-period as compared to previously established laboratory-based tDCS interventions. In Phase 3, the investigators hypothesize that adult PA's who have previously demonstrated the ability to successfully administer tDCS at home, will retain competence and compliance with administration over a longer period, up to 1 year.
This study will utilise an assessor blinded, randomised controlled design to investigate the acceptability and feasibility of providing a novel tele-rehabilitation balance training system (HOLOBalance) for community dwelling older adults at risk for falls. Older adults (age 65-80) who meet the inclusion criteria (e.g. independently living, no neurological conditions) will be recruited from falls services and from the wider community (via AgeUK) and will be randomly allocated to receive either a prescribed exercise programme delivered by: 1) the HOLOBalance tele-rehabilitation system or 2) an exercise booklet (The OTAGO Home Exercise Programme). Participants will be required to perform a series of prescribed exercises each day (duration of up to 30 minutes per day) for the entirety of the 8-week exercise programme. These exercises will be provided via the HOLOBalance tele-rehabilitation system (intervention arm) or by written instructions (control arm). Primary objectives for this study are to assess recruitment rate, compliance with exercise programmes (exercise diaries) and drop-out rates within the intervention group and a control group undertaking standard practice, home based balance rehabilitation (the OTAGO Home Exercise Programme) to explore whether HOLOBalance is acceptable to participants. Furthermore, acceptability to older adults will also be investigated via exit interviews performed within the HOLOBalance tele-rehabilitation intervention arm. Feasibility will be assessed by documenting adverse events (and SAE's), adverse device effects (and SADE's), deviations from protocol and feedback from treating clinicians. Implementation issues such as technology break down, service delivery and usability issues will also be documented. Secondary outcomes to explore trends for effectiveness will investigate performance of both groups at baseline and after the 8 week intervention across a range of outcome measures associated with balance function and falls risk, cognitive function, Physical activity and social participation, and subjective report of mobility and balance.