View clinical trials related to Fall Injury.
Filter by:Falls are a leading cause of injuries among older patients. Medication use is a major risk factor for falls. Because we lack tools to assess individualized risks, general practitioners (GPs) struggle with fall-related medication management for older patients. Furthermore, these older patients are often not properly equipped to engage in the joint management of their medication. A Clinical Decision Support System (CDSS) for GPs and a patient portal for older patients may stimulate shared decision making between GPs and older patients when discussing the medication-related fall risk. The CDSS provides the GP with advice on how to alter medication in such a way that the fall risk decreases, and the patient portal helps the older patient to prepare for a consultation and to engage in the joint management of their medication.
After an injury, an older adult may experience changes to how they complete their daily activities and participate in physical activity. Changes in how or how often an older adult performs an activity (such as climbing the stairs) can be warning signs of increased future difficulties. The purpose of this study is to prevent this decline by providing an exercise program for older adults experiencing these changes. This pilot study will determine if a 12-week home-based high intensity functional strength training (HIFST) program is feasible for older adults who have had an injury from a slip, trip, or fall. HIFST involves combining periods of performing 'hard' everyday movements to build strength (for example standing and sitting from a chair) with periods of rest or 'easy' activity. Feasibility will be determined based on the amount of recommended exercise sessions people complete, the ability to enroll participants and have them finish the program, as well as demonstration of safety. The study will also measure the effects on physical functioning, cognitive functioning, and enjoyment. Interviews with participants in the HIFST program will be conducted after the 12-weeks to gather information on their experience, opinions, likes/dislikes, and suggestions. All this information will be used to guide a future larger study to determine effectiveness.
Falls are the leading cause of accidental injury and injury-related death among older adults. Despite evidence that falls can be prevented, fall related injuries have not declined over time. Current fall injury prevention techniques targeting mobility and bone strength have merit yet their effectiveness is limited. Indeed, a recent Patient Centered Outcomes Research Institute/National Institute on Aging funded pragmatic trial of individualized multifactorial strategy to prevent serious fall injuries in over 5500 seniors revealed no difference in fall injuries between the intervention and standard care arm. The inconclusive results of the investigation may be due in part to focusing on fall prevention rather than mitigation of fall-related impact acceleration and forces - the "fundamental variables" for injury prevention. A fall-related injury occurs when the body hits the ground with force that is greater than tissue strength. Development of innovative approaches that focus on fundamental variables of injury prevention is needed.
Multi-center, comparative, non-significant risk adaptive study with retrospective controls. After providing informed consent and being screened for eligibility, intervention subjects will be prescribed and provided an appropriately sized Tango Belt. The subject must demonstrate a minimum of 64% adherence to the use of the Tango Belt within 14 days of initiation to fully enroll in the study. Upon demonstration of at least minimum adherence, the subject will be provided the Tango Belt to wear continuously for at least 6 months, except during bathing, device charging, and as deemed by clinical staff. The study will investigate the safety and effectiveness of the Tango Belt with the primary and secondary endpoints being taken every 3 months and at the end of the study run time from the electronic medical record. Additionally, ancillary endpoints on adverse events and device performance will be gathered.
The European Geriatric Medicine Society (EuGMS) Task and Finish Group published a consensus paper on fall-risk increasing drugs. However, the group did not reach consensus on 17 medication classes as potential FRIDs. Thus, in this study the investigators want to examine the association between use of these potential FRIDs and falls rate with a 1-year follow-up in a cohort of community-dwelling older adults, aged 75 years or more.
The primary objective of this study is to evaluate the effect of yoga on both fall risk factors AND capacity to successfully control landing and descent during a simulated fall among peri-and post- menopausal women. Older women are particularly vulnerable to sustaining fall-related injuries and although targeted exercises focusing on balance and strength may decrease the risk of falls, the ideal type of intervention to prevent injury when a fall is unavoidable is not known. Yoga is an increasingly popular health practice with potential benefits linked to improving balance, muscle strength and quality of life, but there is no evidence that yoga can improve the capacity to reduce the risk of fall-related injury. Such evidence will help to inform health promotion and fall/injury risk management for older adults.
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.
Fall Arrest Strategy Training (FAST) is a unique, simple exercise program designed to improve one's ability to prevent injury when a fall is unavoidable. Women are more likely to participate in fall prevention programming than men despite risk of serious fall related injuries such as head injury similar in both men and women. The purpose of this project is to test differences between men and women's physical capacity to control the downward descent of a forward fall and prevent injury and to understand factors that influence participation of women and men in fall prevention programming. A total of 60 seniors (30 men and 30 women) age 60 years or older will do their regular activities for 12 weeks followed by 12 weeks of FAST training. They will be tested before and after for muscle strength, balance and their ability to land and descend in a simulated forward fall using a safe protocol in our lab. Group discussions among women and men after FAST will help us determine facilitators and barriers to exercise participation.
Falls are the leading cause of injury hospitalization for seniors across Saskatchewan and addressing the underlying causes is a provincial health priority. Older women are more vulnerable to the most common fall-related injuries (upper body) during forward falling while walking. Exercise programs designed to improve balance and strength can reduce fall risk but it is not known if specific exercises targeted to upper body strength and agility can improve chances for safe landing when a fall is inevitable. The investigators have developed such a program, Fall Arrest Strategy Training (FAST) and successfully piloted the feasibility of the exercises to be included in a standard fall prevention program. FAST is meant to increase arm strength, reaction time, trunk control, and teach better landing techniques. The potential efficacy of such an intervention to improve landing capacity has not been studied in older women. Thirty-two women age 60 years or older will be randomly assigned to either FAST or a Standard Exercise group. Half will do standard exercises targeting balance, mobility and lower extremity strength; the other half will do the same exercises with the addition of FAST. Both groups will exercise twice per week for 12 weeks. Participants will be tested before and after for arm strength, reaction time, balance, mobility and the ability to control body descent (absorb energy) using a technique we developed in our lab. While in a safety harness, participants will simulate a forward fall onto a platform that measures energy during impact. While completely preventing falls is not possible, this study will help the investigators learn if simple exercises like FAST combined with balance training can decrease fall risk AND reduce the risk of serious injury when a fall is unavoidable. It will help address the growing personal and societal cost of fall-related injury. This study will also inform future research targeted to include a large-scale trial evaluating the impact and implementation of FAST training in older adults across the spectrum of care and development of a computer simulation model to determine which factors are most important for reducing the risk of fall-related injury.
Falls in older people are devastating, widespread, costly and increasing in the aging Australian population. Although falls occur in approximately one third of older adults, certain population groups such as the sarcopenic/frail present with further elevated risk of falls. Many exercise interventions have been trialled but systematic review evidence indicates such programs reduce fall rates by an average of only 20% and encounter issues such as compliance. Reactive balance training (also called perturbation-based balance training) utilises a task-specific approach to balance training, applying repeated exposure to unpredictable perturbations that mimic balance disturbances experienced in daily life. Evidence suggests 50% reductions in falls might be achievable in a time efficient manner with reactive balance training but more evidence is required. In this study, ecologically valid, unpredictable trips and slips will be exposed to older people in a safe environment to train their reactive balance. Three 40 min weekly training sessions will be followed by 3-monthly retraining session over one year (40 min x 6 training sessions = 4 hours of training in total). The neuromuscular, physiological, psychological, behavioural effects of the reactive balance training will be comprehensively examined.