View clinical trials related to Balance.
Filter by:Multiple sclerosis (MS) is a chronic, inflammatory and neurodegenerative disease of the central nervous system that often results in motor and/or cognitive impairment. Epidemiologically, the onset occurs between the ages of 20 and 40, with a peak around the age of 30. MS is an extremely heterogeneous disease in terms of signs and symptoms, both in terms of the neurological systems involved and the degree of impairment and severity. The most common symptoms include, among others, difficulty walking and lack of balance. The lack of stability and coordination reduces independence and mobility, predisposing people with MS to accidental falls and compromising mobility in daily life. Another symptom that characterises MS is cognitive impairment, which mainly alters information processing speed and short- and long-term memory. MS-related cognitive impairment is detectable at every stage of the disease. Very often, people with MS have co-existing cognitive and motor deficits, which add to the complexity of managing MS. In order to address this condition, a treatment strategy that combines cognitive and motor rehabilitation needs to be identified. Despite the increasing availability of effective drug therapies that may impact on balance, rehabilitation is a very important means to counteract the progression of disability and improve physical function, affecting social participation and improving quality of life. In recent years, rehabilitation makes use of various robotic devices, which are based on repeatable, intense and motivating exercises, integrated with an enriched virtual environment, capable of improving the quality of movement. In light of the literature, which mainly focuses on robotic therapy for walking, this pilot study aims to evaluate the effects of a specific robotic treatment for balance in MS patients. The primary objective of the study is the evaluation of the effects of technological rehabilitation by means of a robotic platform (Hunova® Movendo Technology srl, Genoa, IT) on static balance. The secondary objective is the evaluation of the effects of technological rehabilitation by means of a robotic platform (Hunova® Movendo Technology srl, Genoa, IT) 1. on dynamic balance and walking (assessed with clinical and instrumental scales) 2. on fatigue and cognitive performance in terms of sustained attention, dual-task cost and cognitive-motor interference; 3. on quality of life.
Stroke is defined as a neurological disorder attributed to acute focal damage of the central nervous system from a vascular cause, including cerebral infarction, intracerebral haemorrhage and subarachnoid haemorrhage. The World Health Organisation defines stroke as a focal and sometimes global impairment of cerebral function that lasts longer than 24 hours or ends in death, develops rapidly, has no demonstrable cause other than a vascular cause. Evaluation of muscle strength and balance ability of affected patients is critical for the recovery of lower extremity motor functions. Proprioception encompasses various sensory perception modalities such as force, effort, movement and limb position. Impairment of sensory function in patients with haemiplegia can hinder the ability of muscles to recover during walking. Accurate and effective assessment of gait and balance functions and their subsequent improvement is one of the primary goals of stroke rehabilitation programmes. Studies comparing the effects of lower extremity functionality and knee joint position sense on balance and falls are available in various versions in the literature. However, there is no study in which 'Restorative Therapies RT300 leg/arm/cor' device was used to measure functionality, 'Humac Norm Isokinetic Machine' was used to measure knee joint position sense, and 'Tecno Body Prokin Isokinetic Balance System' was used to measure balance in a single simultaneous study. Therefore, the aim of this study was to investigate the relationship between lower limb functionality and knee joint position sense with balance and fall parameters in patients with hemiplegia using various devices.
Cerebral palsy (CP) is defined as a disorder of the developing brain that causes movement disorders and may be associated with other neurologically based disorders. Gait abnormalities are a direct result of damage to the motor areas of the brain and include symptoms such as spasticity, dystonia, weakness, loss of selective muscle control, dependence on primitive reflexes, abnormal muscle and inadequate balance reactions. Walking backwards during activities of daily living is as important as walking forward. Some of these activities are stepping back towards the chair, stepping back when opening the door and pulling the door, reflexively leaning back when suddenly encountering an obstacle or uneven ground. In addition, backward walking is defined as a more complex activity that requires more neuromuscular control, proprioception sense, and protective reflex activation than forward walking. Selective motor control is an essential part of typical human movement, allowing for smooth and discrete control of joint movement. Impaired selective motor control causes abnormal reciprocal muscle activations or involuntary combined movements, leading to difficulties with coordination, balance, walking efficiency, and symmetry. Impaired selective motor control is associated with poor gross motor function and balance control, severe general gait deviations, and decreased walking speed. The aim of this study is to examine the relationship between forward and backward walking and selective motor control, trunk control and balance in children with cerebral palsy.
Metabolic syndrome (MetS) or syndrome X, which is increasingly prevalent in the world and in our country, is a disease that includes abdominal obesity, dyslipidemia, impaired glycemic control and hypertension components. It causes cardiovascular events such as myocardial hypertrophy, left ventricular diastolic dysfunction, atrial dilatation and atrial fibrillation. Low levels of physical activity can be caused by a wide variety of factors including environmental and genetic factors, age, race, sarcopenia, poor eating habits, postmenopausal period and smoking history. Factors such as genetic differences, diet, physical activity, age, gender and eating habits are reported to affect the prevalence of (MetS) and its components. Frailty is also emerging as a major issue for the elderly due to its debilitating effects on health outcomes. Frailty is a geriatric syndrome characterized by a gradual decrease in homeostatic tolerance and physiological reserve following exposure to stressors. Frailty predisposes older people to falls, delirium, hospitalizations and even death and is therefore considered a crucial transition between healthy ageing and disability. As a result of aging, degenerative changes in the central and peripheral vestibular system have been found. With age, the ability to regulate movement is impaired as a result of insufficient information in any of the sensory receptors or any disorder affecting the processing of these messages. This directly affects balance and postural control, leading to an increased risk of falls. In the light of the results of the studies in the literature, degenerative changes are observed in many systems in geriatric individuals and while the incidence of metabolic syndrome in these individuals is high, the number of studies evaluating their effects is not sufficient. Based on these deficiencies, it is aimed to examine metabolic syndrome, frailty, locomotive syndrome, balance and physical fitness in elderly individuals.
Down syndrome is one of the genetic disorders that affect postural control and balance in children. Balance involves controlling the position of the body in space to achieve stability and orientation. pilates exercises are one of several techniques that are used to improve balance and postural control in adults and children. the purpose of the study is To investigate the effect of Pilates exercises on balance and gross motor co-ordination in children with Down syndrome
Study Description: The investigators propose to extend earlier research conducted during a feasibility study (Strong Foundations 1.0) by enrolling participants who have a greater risk for falling (x4 cohorts of up to 15 individuals) and from a lower socio-economic status (x4 cohorts of up to 15 individuals), and by collecting high quality laboratory based measures of balance, posture, and strength to better determine the effectiveness of the program and its suitability for widespread deployment. Additionally, the investigators hope to showcase it is feasible to sustain programmatic gains with ongoing digitally delivered content by combining cohorts into a larger group that continues to practice the foundational exercises taught during the 12-week initial program.
Cerebral Palsy (CP) is is estimated to be around 1.5-3 per live birth, with prenatal factors accounting for 75% of cases. CP appears in early childhood and persists with age and is characterized by permanent lesions or abnormalities affecting the immature brain. It mainly occurs as a motor system disorder (e.g., abnormal movements or posture) with the presence of hemiplegia, diplegia or tetraplegia, and spastic, dyskinetic or atactic syndromes. .This study will explore the potential clinical benefits of the Molliimethod in children with cerebral palsy. Spasticity impacts balance and mobility, halts the patients quality of life and their ability to perform their activity of daily living, and could also increase the risk of fractures and falls. Available interventions that aim on improving spasticity are facing limitations such as varios side effects. Therefore, developing novel therapies such as the EXOPULSE Mollii Suit could help to overcome such limitations and noninvasively improve balance, mobility, quality of life and reduce spasticity and pain in children with CP.
The investigators will test a new rehabilitation protocol on patients with persistent postural perceptual dizziness (PPPD). The investigators hypothesize that patients with PPPD, in the absence of vestibular deficits, do not benefit from standard vestibular rehabilitation but instead need a rehabilitation that acts on visual and postural stability, through training of saccadic movements in dynamic contexts of cognitive-motor dual-task and rehabilitation of postural stability.
Fall occurrences and the associated risk of injury are debilitating and major health concerns in the older population. Several interventions have been investigated and implemented to address the needs of balance impairments and to reduce the increased risk of falls. This study aimed to compare the effectiveness of the Otago exercise program (OEP) and gaze stability exercises (GSE) on balance and the risk of falls in older adults residing at an old age home facility. 30 elderly participants were equally and randomly divided into two groups: Group OEP received the OEP and group GSE received GSE for eight weeks (thrice a week). In addition, both groups also performed core muscle-strengthening exercises. The Berg balance scale (BBS) and the Fall efficacy scale-International (FES-I) were the outcome measures.
The purpose of this study is to explore the effectiveness between game-based virtual reality intervention and conventional health education in improving older adults' balance knowledge, and let them know how to prevent falling. The intervention group will receive virtual reality games in person and read the health education flier, while the control group was assigned to read the health education flier and follow suit the video of balance exercise.