329 Clinical Trials for Various Conditions
The goal of this study is to find out if using microprocessor-controlled prosthetic knees (MPKs), prosthetic knees with a built-in computer, improves health outcomes related to falls in adults who use above-knee prostheses. The main questions are: * Do individuals with MPKs have fewer fall-related health issues compared to those with non-microprocessor-controlled prosthetic knees (nMPKs)? * Do individuals with MPKs have increased mobility, faster walking speed, and improved quality of life compared to those with nMPKs? Participants who have recently received an nMPK as part of their regular care can join the study. Those randomized to the control group will keep using their nMPK, while those randomized to the intervention group will receive a stance-and-swing MPK or a stance-only MPK.
The primary purpose of this interventional study is to examine the overall motor learning capacity from exposure to repeated perturbations among ambulatory people with multiple sclerosis (MS). This project will advance our understanding of learning new motor skills from exposure to external perturbations. If it is proven that people with MS can learn motor skills from perturbation training, the findings from this study will pave a theoretical foundation for applying perturbation training as a promising fall prevention intervention for people with MS.
Falls are a common and expensive problem, especially in persons with cognitive impairment due to Alzheimer's Disease and Related Dementias (PwADRD). The annual cost of falls is approximately 70 billion dollars, and falls add to the burden of a family caregiver. Injurious falls are a frequent reason people are unable to remain at home, resulting in significantly increased care costs to the family and society. Most falls prevention efforts fail to address the understanding of fall risks, or the need to change the behavior of the PwADRD, the caregiver, or both. In response to a National Institute on Aging request for 'Care technology to sustain in-home living, preserve function and promote effective communication', an innovative falls prevention intervention for use by caregivers of PwADRD who are still living at home and classified as at moderate to high risk for falls will be developed and tested. This new technology is called FallScape for Dementia (FS-D). The innovative caregiver-provided daily treatment uses an engaging multimedia approach and behavioral intervention methods to facilitate communication and encourage change in falls prevention behaviors to reduce PwADRD falls. This new FS-D intervention offers the rare opportunity to empower both the caregiver and the Person with memory loss by breaking the frustrating cycle of failure to recognize what could make an individual fall, or change behavior and may mitigate the burden that results from falls. FS-D is an urgently needed falls prevention intervention for family caregiver use. The economic and quality of life benefits of sustaining in-home living by preventing falls will benefit not only the caregiver and family, but will accrue to all stakeholders for this large, high-risk population.
Falls are a common occurrence among older adults, and Veterans have an even higher risk of falling compared to non-Veterans. These falls often lead to severe health consequences, including traumatic brain injuries, hip fractures, emergency visits, hospitalizations, and even death. It is crucial to prioritize fall prevention in order to reduce injuries and enable older Veterans to age comfortably at home. Although current fall prevention programs in the Veterans Health Administration primarily focus on inpatient care and nursing homes, there is a pressing need to address falls among older Veterans living independently in the community. The proposed VA-specific Fall Risk Identification and Management (FRIM) model aims to proactively prevent falls in older Veterans who receive primary care, effectively reducing the occurrence of adverse health events associated with falls. By placing emphasis on prevention rather than reacting after falls have already happened, this initiative seeks to significantly enhance the overall well-being of older Veterans.
The purpose of this study is to determine if a fall preparedness program can reduce the fear of falling in older adults and subsequently improve their function and reduce falls with injury. Participants will perform baseline measures 4 weeks before intervention and again at the start of intervention. They will perform a 12-week intervention and then complete outcome measures again at the conclusion of the program.
The goal of this clinical trial is to learn about how fatigue affects the risk of falling in adults aged 55-70 years with and without knee osteoarthritis. The main questions this trial aims to answer are: * Does fatigue increase the risk of tripping while walking? and * Does fatigue increase the risk of falling in response to a trip while walking? Participants will * Complete questionnaires * Wear a device that measures physical activity for 5-7 days * Complete a 30 minute walk on a treadmill * Complete the following before and after the treadmill walk: * Computer test to measure mental fatigue * Maximal strength testing * Balance test Researchers will compare adults with and without knee osteoarthritis to see if fall risk in adults with knee osteoarthritis is affected more by walking activity compared to adults without knee osteoarthritis.
The goal of this observational study is to examine the associations among fall risk appraisal, body composition, and physical activity in older adults in low-income settings. The main questions it aims to answer are: * What is the feasibility of recruitment (e.g., how many older adults need to be screened to recruit the sample?), especially during the COVID-19 pandemic, and acceptability of technologies and procedures for use among older adults in low-income settings? * What are the the dynamic relationships between fall risk appraisal, body composition, physical activity, and behavioral changes related to fear of falling? Participants will: * complete questionnaires about their characteristics, socio-demographic, medical history, cognition, depressive symptoms, anxiety, and fear of falling. * participate in static and dynamic balance tests, body composition measurement and handgrip strength test. * wear an accelerometer for physical activity assessment for 7 consecutive days.
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.
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.
The purpose of this study is to develop an application: MS Falls Insight Track (MS FIT) which allows patients to log their falls and near falls, view their MS relevant data and responses to the clinic intake survey as well as communicate with their care team about falls and receive educational material on falls prevention.
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).
The goal of this clinical trial is to evaluate the feasibility of applying slip recovery training, a novel balance training exercise intervention, to workers who are at increased risk of slip-induced falls. This will be done via field studies with industrial partners. Note that the slip recovery training is not a device or drug. It is a detailed exercise regimen that aims to improve the the ability to recover balance after slipping. The main specific aims are are: * To investigate the feasibility of on-site slip recovery training * To validate field assessments for evaluating slip recovery training efficacy in subsequent research Participants will complete 3-6 once-weekly sessions of slip recovery training, answer daily text messages indicating any falls they experience while working over the 12 weeks after completing slip recovery training, and a subset of workers will be asked to participate in focus group discussions after the 12 weeks to provide information on the long-term feasibility of slip recovery training. A group of workers at Virginia Tech will also be asked to complete a laboratory session of testing during which they will be exposed to a laboratory-induced slip so that gold-standard measures of slip-induced fall recovery can be used to validate field assessments. Workers who complete slip recovery training will be compared to another group of workers who complete an alternative balance training that should improve balance but not improve slip recovery that is targeted by slip recovery training.
The goal of this clinical trial is to learn about preventing falls in people who have total knee replacement surgery using treadmill perturbation training. Perturbation training involves adjusting to rapid speed changes on a treadmill. The main questions it aims to answer are: * Does perturbation training improve the way that people who are planning to have total knee replacement surgery recover after treadmill test that reproduces a trip to the front or side? * Does perturbation training reduce the incidence of preventable gait-related falls during the first year after total knee replacement? Participants will: * complete surveys about their condition and fall history and take part in testing of walking ability and balance. * have a baseline gait analysis test to measure the motion of their body during normal walking. * Be randomized into two groups. One will receive fall-prevention literature. The other will receive the same literature and then take part in a two-week treadmill perturbation training program. * be contacted every two weeks for one year, and asked questions about whether they have fallen during that time. * wear a Fitbit activity monitor on their wrist for one year. Researchers will compare the number of falls from the group that only received literature to the treatment group to see if the training group has fewer falls during the year after surgery.
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 ability to successfully integrate information across sensory systems is a vital aspect of functioning in the real world. To date, only a few studies have investigated the clinical translational value of multisensory integration processes. Previous work has linked the magnitude of visual-somatosensory integration (measured behaviorally using simple reaction time tasks) to important cognitive (attention) and motor (balance, gait, and falls) outcomes in healthy older adults. While multisensory integration effects have been measured across a wide array of populations using various sensory combinations and different neuroscience approaches, a gold standard for quantifying multisensory integration has been lacking. The investigator recently developed a step-by-step protocol for administering and calculating multisensory integration effects in an effort to facilitate innovative and novel translational research across diverse clinical populations and age-ranges. However, patients with severe medical conditions and/or mobility limitations often experience difficulty traveling to research facilities or joining time-demanding research protocols. Using the aforementioned protocol, the study team invented a mobile multisensory falls-assessment iPhone app called CatchU to facilitate physician discussion and counseling of falls in older adults during clinical visits (e.g., annual wellness visits with a subsequent telehealth call), in an attempt to alleviate disability, promote independence, and increase quality of life for older adults. The investigator team has provided a cross-sectional research proposal for a pilot study of 300 patients (over a 24-month period) in order to demonstrate acceptable-to-excellent predicative accuracy of CatchU for identifying older adults at-risk for falls.
The Digital Fall Prevention Study is a single-group unblinded study to explore the feasibility and acceptability of a 3-month fall prevention exercise program delivered digitally via a tablet interface. Evidence-based exercise programs and motivational techniques will be used along with new wearable technology to predict fall risk.
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.
The COcoa Supplement and Multivitamin Outcomes Study (COSMOS; NCT02422745) is a randomized clinical trial of cocoa extract supplement (containing a total of 500 mg/d flavanols, including 80 mg. (-)-epicatechins), and a standard multivitamin supplement to reduce the risk of cardiovascular disease and cancer among men aged 60 years and older and women aged 65 years and older. This ancillary study is being conducted among participants in COSMOS and will examine whether the cocoa extract supplement or the multivitamin supplement improve musculoskeletal health and prevent falls and declining physical performance in the increasing number of older adults in the U.S. with potential for clinical and public health benefits.
The investigators will assess feasibility and acceptability of the Tele-Tai Chi (TC) intervention; explore changes in clinically relevant outcome measures including: physical activity, self-efficacy, quality of life, cognitive function, balance, gait, and evaluate changes in TC proficiency. To achieve this, the investigators are running a single-arm study for older adults that involves a 12-week home-based Tai Chi intervention. Study participation includes four remote and/or in-person (at Spaulding Rehabilitation Hospital) visits to evaluate study participants (mobility tests and questionnaires).
This study has 3 objectives: (1) demonstrate the effectiveness of balance training for people with COPD, (2) determine which patients with COPD respond best to balance training, and (3) calculate clinically meaningful changes in balance for patients with COPD.
Veterans with dysvascular lower limb amputation (LLA) have a high fall risk, which persists despite completion of conventional rehabilitation. The presence of fall risk could be a primary reason for the high disability and low quality of life outcomes in this Veteran population. A potential novel intervention for this population is to train performance of tasks that require both physical and cognitive attention (i.e., dual-tasking). Therefore, the purpose of this study is to explore relationships between dual-task performance and self-reported falls for Veterans with dysvascular LLA. Further, dual-tasking occurs during everyday life and this project will examine the association between dual-task performance and participation in activities of daily living (basic and instrumental). The results will form the foundation for development and future study of a novel dual-task training program for Veterans with dysvascular LLA.
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.
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.
The objectives of this proposal are to evaluate the eSTEPS CDS (eSTEPS) in a cluster randomized controlled trial. The intervention includes the following: 1) A machine learning-based fall injury risk screening algorithm to improve traditional fall risk screening. 2) Provider BPA and/or Care Gap and Smart Set to provide CDS that helps primary care providers develop a tailored fall prevention exercise plan in the context of a Medicare Wellness Visit and 3) eSTEPS Patient App and exercise tools to provide older patients continued access to their interactive, tailored exercise plan.
Falls are dangerous leading to injuries, hospital admissions and even death. Fall prevention is a priority but effective programs only reduce falls by 30%. Weak hip muscles may be one reasons individuals experience a loss of balance. However individuals who have weak hip muscles may be unable to exercise at sufficient intensities to improve their hip muscle strength. The purpose of this study is to utilize a common physical therapy method, neuromuscular electrical stimulation (NMES), on the hip muscles to improve hip muscle strength and improve balance. The new program focuses on using NMES during a resistance training program along with exercise to improve standing balance, walking and stepping over objects. This study will test the additive effect of NMES applied to the hip muscles during a balance and strengthening program to improve balance and mobility, and ultimately reduce the risk of falls in older Veterans at high risk for falls.
The aim of this study is to describe the effect of neuromuscular electrical stimulation (NMES) in the form of functional electrical stimulation (FES) applied to different lower limb muscles on reactive balance and gait performance in stroke participants. Methods: Twenty individuals with chronic stroke will be asked to perform an experimental protocol that includes a postural disturbance in the form of a slip- or trip-like perturbation and a standardized walking test in both laboratory and outdoor environments with and without FES applied to different lower limb muscles of the paretic leg. FES will be applied using an advanced software that is able to synchronize muscle activation with the time of perturbation onset and according to the phases of gait. This project design aims to examine whether a specific pattern of lower limb muscle stimulation could improve the kinematic and behavioral responses during reactive balance following slip- and trip-like perturbations. Additionally, the project aims to see if the kinematic and spatio-temporal gait parameters can be modified during a standardized walking test under different sensory and environmental conditions.
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.
Falls and fall-related injuries are major health risks in American Indian elders. The data showed 52 percent of Zuni elders reporting a fall during the past year, which is significantly higher than the US national average of one out of three adults older then 65 years. In partnership with Zuni Pueblo leadership and community stake holders, the feasibility will be reviewed in hopes of implementing Community Health Representative delivered fall risk screening and evidence-based Otago Exercise Program with physical therapist consultation to address lack of access to home delivered physical therapy and health disparity, as well as empower the participants to address fall risk, avert injury, and preserve aging in place within their community.
This study is being conducted to assess the acceptability and feasibility of a randomized trial of a 10 week virtual intervention to reduce fall risk in people with HIV who consume alcohol. The hypothesis is that this randomized trial of the fall prevention intervention will be found to be feasible and acceptable in this pilot stage. Standardized assessments will be administered in-person at Boston University Medical Campus to assess various domains including fall risk, fear of falling, physical performance measures (such as grip strength, balance, and gait speed), substance use, and other related measures. The intervention has 3 main components: home exercises, virtual group sessions and weekly phone check-ins. Home exercise will be customized to match the current fitness level of participants. Participants will be asked to complete assigned exercises 3 times per week. Additionally, there will be a weekly virtual group session led by an Occupational Therapist trained in group facilitation via Zoom. The virtual group sessions will be used to help answer any questions and lead a discussion around challenges related to falls. Finally, a member of the research team will check-in with participants once per week to answer any remaining questions that participants have, provide individual feedback on exercises, and set up reminders for the upcoming week. Reminders will be tailored to the individual participant's needs to remind the participant to complete the intervention's components.