View clinical trials related to Neuronal Plasticity.
Filter by:Imaging methods bring new possibilities for describing the brain plasticity processes that underly the improvement of clinical function after physiotherapy in people with multiple sclerosis (pwMS). The study determined whether facilitation physiotherapy could enhance brain plasticity, compared two facilitation methods, and looked for any relation to clinical improvement in pwMS.
People with multiple sclerosis (MS) are often offered walking aids and compensatory strategies rather than restorative rehabilitation. We have developed a cool room treadmill training method that uses body-weight support that people with MS fatigue and heat sensitivity can tolerate. Our previous research shows that people with advanced MS use three times more energy for essential tasks such as walking. This project will test whether 10 weeks of body-weight supported treadmill training in a room cooled to 16°C improves walking, fitness and fatigue in people with advanced MS.
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.
Non-depolarizing magnetic fields, like Low Frequency-Pulsed Electromagnetic Fields (LF-PEMFs) have shown the ability to modulate living structures, principally by influencing synaptic activity and ion channels on cellular membranes. Recently, the CTU Mega 20 device was presented as a molecular accelerator, using energy up to 200 Joules and providing high-power (2 Tesla) pulsating fields with a water-repulsive (diamagnetic) action and tissue biostimulation. The investigators tested the hypothesis that LF-PEMFs could modulate long-term corticospinal excitability in healthy brains by applying CTU Mega 20®. Ten healthy subjects without known neurological and/or psychiatric diseases entered the study. A randomized double-blind sham-controlled crossover design was employed, recording TMS parameters (amplitude variation of the motor evoked potential as index of cortical excitability perturbations of the motor system) before (pre) and after (post +0, +15, +30 min) a single CTU Mega 20 session on the corresponding primary right-hand motor area, using a real (magnetic field = 2 Tesla; intensity = 90 J; impulse frequency = 7Hz; duration = 15 minutes) or sham device. A two-way repeated measures ANOVA with TIME (pre, post +0, +15, +30 min) and TREATMENT (real vs sham stimulation) as within-subjects factor was applied.