View clinical trials related to Hemiplegia.
Filter by:The aim of this study is to investigate the effects of the sole of foot sensory education and electrical stimulation on proprioceptive and cortical senses in patients with acute hemiplegia.
Cerebral palsy is the most frequent motor deficiency in children. Among other, it can leads to spastic diplegia or hemiplegia. Walking abilities is an important skill to the families' point of view in term of independence in curent life. Improving the walking parameters has been the main objective in several studies of rehabilitation. The G-EO system is a last generation robot assisting gait training that can adjust cadence, walk lengh, ankle and hip angles and other walking parameters to movement captation. Its superiority in terms of walking abilities has been demonstrated in adults with stroke sequelae. Only one study was realized in pediatric patients with spastic diplegia with promising results. The investigators hypothesize that intensive robot-assited gait training using the G-EO system in hemiplegic children can improve their walking abilities.
The aim of this study included (1) to compare the effectiveness of mirror therapy (MT) and bimanual arm training (BAT) in improving motor and functional performance of hemiplegic upper extremity for adults with chronic stroke; (2) to examine whether recruitment of the mirror neurons, as reflected in mu rhythm suppression, mediates recognition of the mirror illusion in pre/post MT, as compared to BAT without a mirror in clients with chronic stroke, as compared to healthy participants.
The SPIRIT study is interventional, national, prospective, open, bicentric each patient being his/her own control. It is conducted to assess the safety and performance of the Atalante exoskeleton system in patients presenting a non-traumatic acute-subacute hemiplegia. The primary endpoint is defined by the patient's ability to perform the 10 MWT with the Atalante system. The study will include 16 patients and takes place in two french rehabilitation centers.
This study evaluates how cross-education (unilateral training) affects muscle strength of the paretic limb in acute stroke patients. Half of the hemiplegic patients will receive conventional treatment and transcutaneous electrical nerve stimulation (TENS) to non-paretic side, while other half will receive conventional treatment and electro muscular stimulation (EMS) to non-paretic side.
Stroke occurs as a result of blood vessels of the brain becoming blocked or bleeding which in turn can result in loss of function in the limbs. Rehabilitation of patients following stroke includes repetitive, task based exercises to help regain normal limb function. Developments in stroke rehabilitation have resulted in more and more therapeutic options being available for inclusion in the treatment plan of stroke patients. The benefits of computerised task based arm and hand rehabilitation exercises in stroke rehabilitation are well known. Computer based rehabilitation supports the stroke patient in performing high intensity, multiple repetition exercises and in doing so encourages the regeneration of brain cells. In addition, it is believed that the stimulating environment provided by computerised exercise programs encourages the ability to problem solve and perform tasks. However, the effects of such computer based treatments on cognition have rarely been studied. In Turkey to date there are no community based, task specific computerised exercise programmes available to stroke sufferers. Such systems may provide inpatient and community based stroke sufferers with a practical and economical therapeutic option as a part of stroke rehabilitation. Moreover, this may provide the patient with a mode of ongoing, long term therapeutic exercise and maintenance of skills acquired in the hospital rehabilitation period shortly after stroke. The aim of this study was to investigate the benefits of computer based, task specific exercises when compared to conventional rehabilitation alone on arm and hand function, quality of life and cognition in stroke patients.
1. To explore the role of sonoelastography with shear wave velocity to assess poststroke spasticity of affected arm and forearm muscles in patients with stroke. 2. To investigate the effects of Kinesiotaping applications on motor recovery, functional performance, and spasticity of affected upper extremity in patients with subacute stroke.
Alternating Hemiplegia of Childhood (AHC) is a rare and serious disease that is in need of effective, and hopefully even curative, therapies. Afflicted patients suffer from severe paralyzing crises, often excruciatingly painful muscle spasms, severe often life threatening epileptic seizures, and frequently severe developmental and psychiatric/psychological disabilities. Based on the repeated input from family organizations and from professionals, as expressed at the London 2016 ATP1A3 in Disease meeting, there are urgent clinical research needs for AHC that are essential to better understand the disease, evaluate its treatment options and plan for future controlled clinical trials. The goal of the study is to evaluate different parameters involved in the evolution of the AHC. The investigating team's hypothesis is that the evolution is variable so it aims to evaluate the factors which could contribute to the progression of the disease.
In this study assessing whether platelet rich plasma injections(PRP) are effective in the management hemiplegic shoulder pain, 55 patients with hemiplegic shoulder pain was recruited to this randomized controlled study. Patients were randomized into two groups, first getting PRP injections, and other group taking sham injections.
The primary purpose of this study is to show whether WBV application has antispastic effect. The secondary aim is to demonstrate whether WBV has neuromodulatory activity on increased stretch reflex and motor neuron activity, which is the basis of the pathophysiology of spasticity.Hypotheses of this study:Whole body vibration in poststroke hemiplegia reduces ankle plantar flexion spasticity. 1. WBV ; reduces plantar flexor spasticity after stroke 2. WBV decreases poststroke spasticity, by decreasing increased stretch reflex and motor neuron activity.