View clinical trials related to Postural Balance.
Filter by:Female handball athletes are at a particular risk of sustaining lower extremity injuries. The study examines time-dependent adaptations of static and dynamic balance as potential injury risk factors to a specific warm-up program focusing on neuromuscular control.
This study evaluates the effect of balance circuit in patients with more than one year of postoperative total hip or knee arthroplasty. Patients were randomized between intervention group (IG) (balance exercise circuit ) and control group (CG) (usual routine). The evaluations were conducted by blind examiners.
Determine the effects looking in certain direction or moving the eyes in a certain way have on the ability of a subject to maintain equilibrium in different circumstances (eyes open/closed, and standing on hard or compliant surface, with the head straight or rotated right or left, flexed or extended).
The objectives of this study are to evaluate the usefulness of an intervention utilizing the NintendoTM Wii console in order to improve balance, thereby decreasing both the fear of falling as well as the number of falls, and to evaluate the correlation between balance as determined by the console and the value obtained in the Tinetti tests and the one foot stationary test.
As the geriatric population continues to rise, the consequences of falls and fall-related injuries carry increasing socioeconomic significance. Fall during turning is 7.9 times more likely to result in hip fracture than a fall while walking straight. Hence, turning carries a significant risk for hip fracture. Turning is ubiquitous during activities of daily living, yet most gait research has focused on straight ahead walking. Turning affects lower limb kinematics, kinetics, and step parameters. Therefore it appears to be a greater challenge for individuals with mobility problems. Turning ability is affected by age changes and balance confidence. TURN180 test was built to assess the parameters of turning. It has four major categories which are the most readily identified indictors of difficulty in turning while walking. These categories are: (1) the type of turn (or strategy) used to accomplish the turn, (2) the number of steps taken during the turn, (3) the time taken to accomplish the turn, and (4) staggering during the turn. The purpose of this study is to explore the TURN180 test ability to evaluate the risk of falling in the elderly population and compare it to the known gold standard clinical test. This is a validation study of balance and mobility tests using a three-group sample of convenience. The independent elderly subjects (n=75) will be divided into three groups according to their falls history and undergo four balance tests: Timed "Up and Go" test (TUG), Tinetti Balance Test (Tinetti), Berg Balance Scale (BBS). The participants will be videotaped while performing the TUG test. Basic temporospatial aspects of turning during walking such as the number of steps taken during the turn and the time taken to accomplish the turn will be measured using both the slow-motion and stop-action capabilities of the VCR system and a time-code processor.
Falls are dangerous leading to injuries and even death. The VA has made fall prevention a priority, but effective programs only reduce falls by 30%. Tai Chi, a standing exercise program, has been effective at improving balance but may not prevent falls. Most falls occur during walking when an individual experiences a slip or a trip. Programs that focus on walking, stepping, and recovery from a slip may be more effective at fall reduction. This study will compare Tai Chi to a novel multimodal balance intervention (MMBI). MMBI focuses on standing balance, walking, stepping, strength training, and recovery from a slip. The Investigators believe that the MMBI program will be more effective than Tai Chi at improving balance and preventing falls in older Veterans and the Investigators will use the results of this study to develop a larger study on fall prevention in older Veterans.
Balance disorders are frequently observed in patients with Multiple Sclerosis (MS) and the deterioration of the static and dynamic control of balance is an important and basic symptom of disease progression. Measure balance disorders with force platforme requires personnel and represent a significant cost. The platform Nintendo Wii Fit represents a valid economic alternative
Falls are a major public health problem. They are the leading cause of injuries and injury-related deaths in those aged over 65 years. Balance and gait abnormalities are major reasons for falls in elderly. Exercise interventions improve gait and balance in the elderly. Despite the many proven benefits of exercise, many older adults in the US remain sedentary. This study targets at improving balance and gait with use of Wii-Fit as an exercise program.
Falls are a significant issue for older adults with vision impairment. Medical conditions such as glaucoma and age-related macular degeneration that result in vision impairment negatively impact balance. Falling is 1.7 times more likely among older adults with vision impairment. In 2010 there were 9,146,026 older adults treated in emergency rooms for unintentional falls and injuries from falls are expected to cost the nation an estimated $54.9 billion dollars by 2020. Falls can lead to death, depression, and loss of independence. However, impaired balance is a modifiable risk factor for falls. A practical yet innovative falls prevention program has been developed that is designed to enhance balance and proprioception among older adults. This program, UExCEL (UNE-Exercise and Conditioning for Easier Living) Balancing Act, consists of simple exercises that can be done at home (15 minutes duration-3 times a week) during normal daily activities, requires only one brief training session, and no equipment. This study aims to establish an evidence base documenting the positive impact of Balancing Act exercises on balance and falls prevention for older adults with vision impairment. A randomized controlled trial of older adults with vision impairment (best corrected vision of 20/70 or worse) will be conducted over a 6-month period (control group n = 35 and Balancing Act intervention group n = 35) to determine the impact of Balancing Act on falls, fear of falling, pain, and activity levels. Factors that can be expected to affect its adoption and sustained use such as cost in the community and social support networks in the home will also be investigated. It is hypothesized that the Balancing Act intervention will decrease the number of falls experienced by older adults who have vision impairment by improving their gait and balance, reducing their fear of falling, increasing their physical activity, and reducing their pain. The specific aims of the research are to: 1) Evaluate the impact of Balancing Act on standing balance control and proprioception for older adults who have vision impairment, using the Tinetti Gait & Balance Test, a validated tool for evaluating gait and balance and predicting fall risk; 2) Evaluate the impact of Balancing Act for older adults with vision impairment on falls, fear of falling, physical activity, and pain; and 3) Improve adherence to the Balancing Act exercise program by facilitating social networks. Data will be analyzed through: 1) a descriptive assessment of the baseline demographic characteristics of sample members, covariates, and outcome variables, as well as 2) a repeated measures design examining the impact of the intervention on study participants.
Background: The individual's ability to sustain itself in the upright position, effectively adjusting the body's movements and reacting to external stimuli, postural control strategies represent essential activities of daily living. Diabetes mellitus type 2 (DM-2) is considered a more problem of Public Health as having complications deficit in functional performance of the lower limbs and falls, which can interfere with the maintenance of balance, and is a strong predictor of functional limitations self referred. Aim: To assess quality of life and the answers neuromuscular balance and baropodometric after sensory-motor training in patients with type 2 diabetes. Method: To be recruited 50 volunteers aged between 45 to 64 years with DM-2, of both sexes, divided into two groups: 1) Guidelines and 2) Guidelines + sensory-motor training. Biomechanical data will be collected (balance, baropodometry, electromyography strength and joint position sense), as well as questionnaires ADDQoL and BESTest. The intervention will be twice a week for 45 minutes for 12 weeks, divided into three phases: heating, sensory-motor training and cool-down, with monitoring of blood pressure and blood glucose. There will be a follow up after 3 months of intervention. Statistical analysis will be used normality test to verify the data distribution and consistent statistical test for the appropriate comparisons within and between groups, and adopted a significance level of 5%. Expected Results: Considering previous studies that demonstrate improvement in postural balance static and dynamic responses under the forward training protocol sensorimotor disease Diabetes mellitus type 2, is expected to improve neuromuscular, balance, distribution plant, the joint position sense and the quality of life of voluntary DM-2. Keywords: physical therapy modalities, exercise therapy, postural balance, Diabetes Mellitus, quality of life.