View clinical trials related to Postural Balance.
Filter by:The aim of the study is to investigate whether individuals with fall-related wrist fractures have impaired posterior control, reduced proprioception in their lower limbs and/or vestibular asymmetry compared with those who have not fallen and sustained a fracture. Secondly to investigate the effects of a new balance training method, directed at the sensory systems and training of fall-preventive movements on postural control and how it impacts the function of the sensory systems. Postural instability falls and fractures form one of the major problems associated with ageing. An association of vestibular- asymmetry with falls and fractures has been found and reduced vibration sensation in the lower limbs has been connected with imbalance. Wrist fractures are often precursor to the more serious hip fractures, which often result in decreased quality of life, even death and are costly for the society. Subjects will be individuals 50-75 years of age having sustained a fall-related wrist fracture. Measurements of sensory functions, postural control and functional ability will be conducted before and after balance training. Confidence in daily activities and self-perceived dizziness handicap will be obtained with questionnaires. The same evaluations will be performed on age and gender matched individuals without previous history of fall-related wrist fractures. This research might reveal the presence and frequency of vestibular asymmetry or/and other age related degenerative changes in the sensory systems, which decrease stability and increase the risk of falls and fractures. It could show preventive effects of specific balance training on fall risk, and thus increase quality of life of the individuals, improve healthcare services and decrease costs associated with falls and fractures.
Purpose: The purpose of this study was to determine whether whole body vibration with plyometric training has effect on physical performance parameters and balance also this study searched for if vibration support additional benefits to normal plyometric training. Methods: 24 elite basketball players divided into two group as 12 players with the mean age of 24 ± 6,96 years (Study Group) and 12 players with the mean age of 22,45 ± 5,22 years (Control Group). Plyometric training were applied to study group on whole body vibration platform for 6 weeks (2 days/week) with routine basketball training, in control group plyometric training were applied on whole body vibration platform with the similar period of time but platform had been closed. All the assessments (physical measurement, vertical and horizontal jump tests, one-repetition maximum (1-RM) half squat strength test, 20 m speed test, T agility test, sit and reach flexibility test, star excursion balance test) were applied before and after 6 weeks plyometric training for both groups.
Breast cancer is one of the most common types of cancer in Brazil, and its treatment, namely surgery, chemotherapy, radiotherapy or hormone therapy, has consequences and side effects that significantly affect the quality of life and associated physical and psychological factors. The practice of physical activity, in turn, may play a beneficial role in these factors, and help the recovery of the patient in relation to the consequences of the treatments. Two types of physical activity can be addressed in the context of breast cancer; Dance and the Pilates method. Thus, the objective of the present study will be to analyze the impact of Pilates practice and dance on quality of life and on psychological and physical factors in patients undergoing adjuvant treatment of breast cancer. Patients older than 18 years who are in adjuvant treatment, namely, chemotherapy, radiotherapy and / or hormone therapy at the Oncology Research Center - CEPON, will be invited to be part of the study. With a randomized clinical trial of three arms, the patients will be submitted to 16 weeks of intervention, and randomized in 3 groups: (A) belly dance protocol group; (B) Pilates method protocol group, and (C) control group who will continue with their routine activities. Sample randomization will be conducted in confidence by one of the researchers in a specific computer program. Information about personal and clinical characteristics, quality of life, psychological factors (depressive symptoms, body image, self-esteem, optimism, perceived stress, fatigue, pain, sexual function and sleep quality) and physical factors (cardiorespiratory fitness, balance , Posture, upper limb functionality and presence of lymphedema). All information will be collected before and after the intervention period. Statistical analysis will use the statistical package SPSS - IBM, version 20.0. Firstly, descriptive statistics (mean, standard deviation and percentage) will be used in order to know the data, and then the Anova two way test with repeated measurements and Sydak Comparison Test, in order to analyze the data. Groups of the Pilates method, of the dance and control group. Significance level of 5%.
Poor balance is one of the major risk factors for falling in older adults. A Matter of Balance (MOB) is one of the most commonly used fall prevention programs nationally. Despite its name, MOB focuses on managing concerns about falling, and does not include a balance component. We are testing to see if adding a dual-task balance component (balance and mental thinking) to MOB can improve balance and walking better, than MOB only.
30 patients with brain tumor will be included in the study between the ages of 6 and 18 who have undergone surgery. Patients included in the study will be randomly assigned to two groups. The study group will be included in the Nintendo Wii Fit Plus Balance Game exercise program under the supervision of a physiotherapist for 2 days per week for 8 weeks. The control group will be taken to the conventional exercise program under the supervision of a physiotherapist for 2 days a week, 1 hour a day. The assessments will be made before the exercise program begins and at the end of the 8th week. Patients' physical measurements were assessed by anthropometric evaluations, muscle strength measurement, pain Visual Analogue Scale, walking Observational Walking Analysis, Balanced Pediatric Functional Range Test, Timed Up and Go (TUG) and one foot standing test and Nintendo Wii Fit Plus Balance Assessment, Functional capacity 2 min. With Walking Test, fatigue with PedsQL Multidimensional Fatigue Scale, daily life activities will be evaluated with WeeFIM.
This is a pilot randomized control trial with single blinding of the assessor that will be conducted in two nursing homes residence to evaluate the applicability of a physical exercise program performed in an aquatic environment compared with the same realization but land-based to reduce falls in the institutionalized old people. The secondary objectives are to study the applicability of the intervention in improving balance, function, gait mobility, muscle strength of the lower limbs and the perception of the intervention.
This study will examine the addition of neuromuscular electrical stimulation (NMES) on the hip abductors during strength training and a fall prevention program for improving muscle strength and improving balance. All individuals in this study will receive NMES to their hip abductors and will participate in a fall reduction program.
Objectives: This proposal is to investigate the effect of a 6-week training programme using an Interactive computer play (ICP) on the trunk control, balance and gross motor function in children with cerebral palsy (CP). Hypothesis to be tested: The trunk control, balance and gross motor function of children with CP will be significantly improved after the ICP programme. Design and subjects: 20 children (6 to 12 years old) with CP will be recruited in this pilot randomised controlled trial. The children will be randomly allocated into a control or treatment group (10 children in each arm). Study instruments: Tymo is a wireless force plate used for assessment and training. Intervention: An ICP program will be set up using the Tymo. The child uses their trunk movements in the ICP in sitting during the intervention. The children will receive the intervention 4 times/week, 20 minutes/session for 6 weeks. All children will be assessed at the beginning, 3, 6 and 12 weeks post-intervention. Main outcome measures: - Segmental Assessment on Trunk control - Pediatric Reach Test - Gross Motor Function Measure Item Set (GMFM IS) - 2-minute walk test Data analysis: As a pilot study, 20 children will be recruited for this study. Independent t-test or Mann Whitney U test will be used to compare the continuous and ordinal results between the intervention and control groups. Expected results: The trunk control, balance and gross motor function of children with CP will be significantly improved after the intervention. Clinical significance and potential of the study: This is clinical trial to examine the effectiveness of a new intervention, a kind of interactive computer play training module, on training the trunk control for children with cerebral palsy. If the intervention is proven effective, it may be an adjunct to the conventional Physiotherapy to children with movement disorders in enhancing their trunk control. Better trunk control will in turn improve the daily function for these children as their sitting and standing balance is improved. In a long run, these children will not rely on expensive seating equipment to maintain their balance during schooling and at home.
There are many exercise approaches that have demonstrated effectiveness in reducing falls and fall risk in community-dwelling older adults. The Otago Exercise Program is one such program. The Otago Exercise Program has been tested in four randomized controlled trials and one controlled multi-center trial and was found to reduce falls in older men and women. The focus of the Otago Exercise Program is on improving strength and balance with a home-based balance exercise program. The goal of the current study is to evaluate whether a self-administered, tablet-based version of the Otago fall prevention program is both feasible and effective for reducing fall risk and improving balance in community-dwelling older adults.
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.