View clinical trials related to Fall.
Filter by:Many people with partial damages in their spinal cord (iSCI) have physical impairments such as muscle paralysis in legs which make standing balance difficult. Poor balance control often leads to falls, injuries, and hospitalization. Therefore, improvement of standing balance is an important therapeutic goal for these individuals. Our team has shown that a therapy called visual feedback training (VFT) can improve standing balance by allowing individuals with iSCI to actively participate and follow visual feedback of their body sway on a screen like a computer game. We have also found that the application of low-energy electrical pulses to weak muscles called functional electrical stimulation (FES) during VFT can enhance the training effects. Recently, transcutaneous spinal cord stimulation (TSCS) has been discussed as a promising technique to further promote the rehabilitation effects after SCI by enhancing the connectivity between the brain and spinal cord and within the spinal pathways. However, to date, the potential of combining the two techniques (TSCS+FES) to improve the standing balance remains unknown. In this study, through the completion of a clinical trial, we will investigate the effects of an intervention that combines lumbar TSCS with FES of ankle muscles during VFT on the functional and neurophysiological outcomes in individuals living with iSCI. Participants will be randomly allocated to receive combined TSCS with FES or FES alone during VFT for 12 training sessions over 4 weeks. We expect that the new therapy would further improve balance and strengthen the neural connections between the brain and muscles. The expected changes in the neural connections will be measured by recording electrical signals from the lower limb muscles following stimulation of the motor region of the brain. Results of this study will be used for a larger-scale study in people with iSCI to improve balance and reduce falls during their daily life activities.
Parkinson's disease (PD) affects approximately 1 million people in the United States and causes significant fall risks. This study aims to develop a community-based exercise program that reduces falls in persons with PD. By combining individualized balance activities with group boxing training, the study seeks to identify modifiable risk factors, improve balance dysfunction, and reduce falls. The findings will inform clinical practice, offering a community-based exercise model to address the urgent need for effective fall prevention interventions in PD.
Background Impaired gait adaptability is one of the major causes of falls among older adults by producing inappropriate gait adjustments in cluttered environments. Training programs designed to improve gait adaptability behavior in a systemic approach may prevent falls in older adults. Recently, the technology of virtual reality has appeared as a relevant gait training tool based on its training implementation potential. The present study was designed to compare the effectiveness of a virtual reality gait training program (VR group) for improving gait adaptability behavior and thus, reducing the risk of falls relative to a conventional training program of Nordic walkway (NW group). We hypothesize that the virtual reality gait training program will lead to greater gait adaptability improvements. Methods The protocol describes a randomized controlled trial with pre-tests, post-tests, retention tests and follow-up. Forty healthy independent living community dweller participants (65-80 years) will be allocated, after a general medical examination, to the VR or the NW group for a training program of six weeks. Primary outcome related to gait adaptability capacities and acceptance of the virtual reality device will be assessed in pre- and post-intervention and one month after the completion of the training program (retention). A follow-up will be done during the 12 months after the completion of the gait training program. Discussion This study will demonstrate the relative relevance of a gait training program in virtual reality versus a conventional one for improving gait adaptability behavior in healthy older adults and thus preventing falls.
Maintaining the elderly at home and preventing them from falling are major public health issues. The vast majority of elderly people wish to remain at home. The fear of a fall with prolonged standing is a frequent reason for institutionalization. There are few procedures that have been shown to be effective in preventing falls and their complications. Prolonged standing on the floor is a major complication that can lead to multiple events, including death. Tele-alarms are widely used in France and in Europe, but their effectiveness in the event of a fall is poor and their use is restrictive (they require physical and mental capacities to activate). However, elderly people at risk of falling are often frail or dependent, suffering from cognitive disorders and sometimes polymorbid, which explains the large number of failures of tele-alarms. There are other alert systems, notably intelligent video surveillance systems such as the VA2CS. This is a video system placed in the home that analyzes the position of subjects in real time using algorithms based on artificial intelligence. The system works continuously without video capture and sends an alert with a photo if a person is lying down after a fall. The alert is confirmed after an operator has checked the photo capture on a dedicated platform. To date, it has a sensitivity and specificity of over 90% (manufacturer's data not published). Its performance is equivalent to other intelligent video surveillance systems published in the literature. This system is autonomous and does not rely on the abilities of the person at risk of falling. Intelligent video surveillance is an innovative technology which has not yet been evaluated in a geriatric care program, nor compared to a reference or analyzed from a quality of life or medico-economic perspective. The hypothesis of this study is that intelligent video surveillance allows an exhaustive and early detection of the fall with a faster alert enabling to avoid prolonged standing on the ground and its consequences compared to the tele-alarm alone.
Falls is a major concern in geriatrics due to its high prevalence and various adverse health complications among elderly population. Risk of falls can be reduced by improving nutritional status and increase the level of physical activity. Besides, knowledge regarding risk of falls, nutrition and exercise are important in reducing the risks of falls. Therefore, this study aims to develop, implement and evaluate the effectiveness of a nutritional education and exercise intervention among community dwelling older adults in Selangor.
The aim of the study is to examine the effect of multicomponent exercises recommendations on falls, physical functioning, physical activity, and general physical and psychological well-being among Hungarian older adults dwelling in nursing homes.
This prospective randomized study will assess an emergency department (ED) based prevention strategy in geriatric patients at high risk for recurrent falls and injury. Falling is a major health hazard in older adults with a number of proposed but unproven protocols to prevent fall-related injuries. This study proposes to study one of these strategies, the CDC's Stopping Elderly Accidents, Deaths and Injuries program (the STEADI Program).
Older adults may feel at risk for falling, but do not have a physical risk of falling. On the other hand, some older adults may not feel at risk for falling, but do have a physical risk of falling. This study is being done to test a preventative, in-home exercise program (called PEER) which may allow older adults to improve balance, align the perceived risk for falling with the physical risk for falling, and prevent falls. Participants will be asked to participate in this study for approximately 9 months. This study has three specific aims: 1. Examine differences in balance, fall risk, and physical activity after program completion, follow-up 3 months and 6 months between older adults (OAs) in the Physio-fEedback Exercise pRogram (PEER) intervention and OAs in attention control (AC) condition. 2. Explore differences in exercise adherence and the proportion of shifting in fall risk appraisal and negative self-perception on aging after program completion, follow-up 3 months and 6 months between OAs in the PEER intervention and OAs in AC condition. 3. Explore participants' experiences with the PEER intervention and potential barriers to access and adoption of the technology-based PEER intervention to inform future research. Participants will be asked to participate in this study for approximately 9 months. This includes the baseline assessment, 8 weeks of PEER activities or attention control activities, and follow-up assessments at 3 months and 6 months. After the informed consent and completion of the baseline assessments, participants will be randomized to either the PEER intervention or the attention control (AC) group. Participants in the PEER intervention group will be asked to participate in group exercises (60 minutes per week for 8 weeks) and home-based exercises (twice a week for 8 weeks) that focus on balance, strength training with a peer coach. Participants in the AC group will receive an information pamphlet developed by the CDC about falls called Simple Exercises for Improving Balance and Preventing Falls in Older Adults. Topics include information on fall risks, how to prevent falls, how to check for safety, postural hypotension, and chair rise exercises. The control group will be encouraged to discuss fall prevention with a primary care provider and continue normal activities.
Ageing involves several physiological changes such as loss of muscle mass, muscle strength, and alteration of balance control mechanisms. Consequently, there is an increased fall risk that can lead the older adult to a reduced self-sufficiency in daily living activities. Investigating the role of different physical activities to counteract the age-related declines deserves attention. The present study aimed to evaluate the effects of two trainings performed with and without unstable devices, on dynamic balance control and lower limb strength compared to a control group that received no intervention.
This study aims to evaluate the impact of assessment and early physiotherapy management on the care pathway of the elderly person who falls, their length of stay in hospital and their fall recurrence rate.