View clinical trials related to Gait Disorders in Old Age.
Filter by:This project is structured in two distinct phases. The first phase deals with the recovery of the hip fracture in the acute phase up to ambulation, and the second is understood as the continuation of functional improvement of gait. In the first phase, the aim is to evaluate the effects of the use of the robotic device (SWalker) on the physical improvement of the patient. While in the second phase, the objective is to evaluate the effects of virtual reality technology combined with the use of the SWalker.Therefore, the following specific objectives are identified: - Phase I: To analyze the effects of SWalker application in patients with acute hip fracture on clinical parameters of rehabilitation. - Phase II: To study the effects of the application of the SWalker combined with immersive technology in people with impaired gait function after hip fracture.
Video game-based training programs, in the following referred to as "exergames" are an innovative digital training approach to simultaneously train physical and cognitive functions and increase training motivation for various populations. Patients who are differently limited in their physical and cognitive performance due to a decline in functioning can profit from a motivating and combined physical-cognitive training approach. An interdisciplinary team of movement scientists, sports and training experts, as well as game and industrial designers developed an innovative and immersive video game-based training product for patients - the ExerCube training software licence. The exergame development focused on a user-centred process together with the target population. The ExerCube training software licence is an exergame training product that includes immersive mixed-reality training programs (or video games) for patients. Depending on the patient's training requirements, the therapists can choose from the training program repertoire. The patients control the training program (or video game) by specific (whole) body movements. To present the virtual training programs from the ExerCube training software licence in the physical environment, the ExerCube hardware and harness system is used to serve as a physical training room. It allows the virtual video game environment to be presented in the physical world. This summative usability study aims to assess the training system's safety, usability and validate the user experience. Primary end-users (defined as patients aged 18 and above) and secondary end-users (defined as sports scientists, training therapists or physiotherapists/occupational therapists with a focus on sports/training therapy) will test and review the system in different testing scenarios.
The primary aim of this pilot study is to investigate the effect of Walkasins, a wearable lower-limb sensory prosthesis, on the gait speed and balance function of participants with mild cognitive impairment as measured by the Saint Louis University Mental Status (SLUMS) Examination.
The current study aims to investigate the effect of walking with the SAIRE smart walker on spatiotemporal parameters and gait kinematics in a population who suffer from difficulties during gait, and compare this to walking with a standard walker or no walking aid.
Osteoarthritis is a chronic, degenerative disease affecting the joints. It is characterized by the presence of bone tissue that goes to make up for the loss of articular cartilage, causing pain and limitation of movement. Osteoarthritis is a direct consequence of aging: it affects almost all 70-year-olds, peaking between 75 and 79 years. The presence of osteoarthritic processes at the hip and knee joints can result in pain, difficulty maintaining standing for a long time, and difficulty walking with loss of balance, increasing the risk of accidental falls to the ground. Falls are a frequent cause of mortality and morbidity and, often, limit autonomy leading to premature entry into assisted living facilities. In Italy, in 2002 it was estimated that 28.6% of people over 65 years fall within a year: of these, 43% fall more than once and 60% of falls occur at home. Such falls can often result in fractures leading to the need for hospitalization with significant impact on both motor and cognitive function. Balance and gait rehabilitation are of primary importance for the recovery of a person's autonomy and independence, especially in older individuals who have undergone osteosynthesis or prosthesis surgery of the lower limbs. Technological and robotic rehabilitation allows for greater intensity, objectivity, and standardization in treatment protocols, as well as in outcome measurement. In this context, patient motivation is fuelled and maintained by both the sensory stimuli that support technological treatment and the challenge of achieving ever better results, objective feedback from instrumental assessments. Osteoarthritic patients who have undergone osteosynthesis or lower extremity prosthetic surgery require special attention, especially with the goal of preventing further accidents and reducing the patient's risk of falling. Given these considerations, it is believed that conventional physical therapy combined with technological balance treatment may be more effective on rehabilitation outcome than conventional therapy alone.
The purpose of this study is to investigate the userbility and satisfaction of one-off functional gait training with the Gait Enhancing and Motivating System-Hip type (GEMS-H) on locomotor function in normal adults including the elderly.
The purpose of this study is to investigate the userbility and satisfaction of functional gait training with the Gait Enhancing and Motivating System-Hip type (GEMS-H) on locomotor function in normal adults including the elderly.
SARA-INT is a phase 2 interventional study performed in Europe and USA aimed to evaluate the clinical benefits, safety and tolerability of the investigational drug BIO101 administered orally for a six-month (26 weeks) duration to older patients, community dwelling men and women aged ≥65 years, suffering from age-related sarcopenia (including sarcopenic obesity), and at risk of mobility disability. The double-blind, placebo controlled clinical trial will collect and analyse data on physical performance and body composition and will specifically focus on the change of one functional measurement, the gait speed measured during the 400MW test plus the change of a highly standardised patient reported outcome (PRO), the physical function domain PF-10 at the SF-36 auto-evaluation questionnaire, in order to estimate the efficacy of BIO101 administered over 26 weeks, in preventing mobility disability in the target population.
The SARA-OBS is a single arm phase 2 clinical trial, with no investigational product and no therapeutic intervention that will be conducted in three European countries, (Belgium, France and Italy), and in the US. 300 community dwelling older adults (men or women≥65 years) reporting loss of physical function and at risk of mobility disability, will undergo mobility functional evaluation and Dual-energy X-ray Absorptiometry DXA scan for body composition determination twice, at six-month interval. Participants aged ≥ 65 years complaining of poor physical function will be selected to perform SPPB (Short Physical Performance Battery)tests. Those with SPPB scores ≤ 8/12 will be selected to perform body composition analysis with DXA Scan. Participants with ALM/BMI < 0.789 in men and 0.512 in women will be included. The investigational phase will comprise two main visits: the inclusion visit and the 6-month visit. Both the 6-minute walk distance test and the 400-metre walking test will be administered at the main visits. Patient Reported Outcomes (PROs) will be completed by the patients at the same visits.