View clinical trials related to Motor Function.
Filter by:In this project, patients with Parkinson's Disease (PD) will be characterized by measuring cognitive and motor function and relation to effect of Levodopa. Participants will be patients with Parkinson's Disease and healthy controls. It will be investigated if there is a difference between patients with a good measured Levodopa response and with a poor measured response.
The aim of this study is to compare the effects of robotic rehabilitation on balance, body control, mobility, spasticity, motor function and depression compared to traditional therapy in individuals with chronic stroke. Patients aged between 40-70 years, who applied to the Private Avrasya Hospital Physical Therapy and Rehabilitation Clinic, were diagnosed with hemiplegia based on an epicrisis medical board report, were included in the study on a voluntary basis, regardless of gender. After recording the demographic and clinical information of the participants, based on the physician's decision, they were included in 2 groups: conventional treatment combined with robotic rehabilitation (n=20) and conventional treatment only (n=20). While one of the groups received traditional treatment, the other group received robotic walking training in addition to conventional treatment. Traditional treatment includes strengthening, balance, range of motion exercises and gait training applied 3 days a week for 4 weeks. Robot-assisted walking training was planned for 20 minutes, 3 days a week. As assessment methods, number of steps, the 10m Walk Test, Brunnstrom motor staging, Functional Ambulation Classification, Fugl Meyer Rating Scale (lower extremity section), Modified Ashworth Scale, Beck Depression Scale, Tinetti Balance and Gait Test, Postural Assessment Scale in Stroke Patients and Stroke Impact Scale were used. Gender, age and duration of illness showed homogeneous distribution between the groups.
Healthy individuals, after reading and signing the free and informed consent will be submitted to a single session to obtain the normal neurophysiological measures and thus compare with those obtained in individuals with PD. Healthy and post stroke patients will be submitted to a neurophysiological evaluation through transcranial magnetic stimulation (TMS) and electroencephalography (EEG). The post stroke patients will also performed the evaluation trought the fugl meyer scale.
Determine the short-term and lasting effects of intensity-matched exercise programs on level 2-3 PD patients' clinical symptoms, postural control, and mobility. Hypothesis 1. The inclusion of a Borg-scale/heart-rate matched active control group will allow us to test the idea that, in addition to a fitness element, the reflexive movements that chellenge PD patients' sensorimotor system will improve patients' clinical symptoms, posture, and mobility more than fitness training and that such lasting effects will be superior in the agility compared with the fitness-control group. This hypothesis emered from the idea that the favorable results in the currently under review paper may be in part due to a simple conditioning effect instead of a specific motor learning effect caused by the xbox training. 2. If feasible, i.e., if there is a lerge enough pool of patients to randomize, a balance training group will be also added to test the idea that the reflexive actions evoked by the agility program by xbox exergaming still produce superior adaptations vs. the balance group because xbox forces patients to rapidly and reflexively execute movements (respond to cues, prompts), while balance training allows patients to stop, go, stop, and go and disrupt the continous execution of linked movements. The disruptions of movement chains could arise from small losses of balance on the unstabel surfaces, need for patients to re-initiate every movement element of a sequence, planning each movement element. It is not clear yet how it woul be possible to match all three intervention groups on Borg/heart rate intensity.
Early stroke rehabilitation is known to be an effective and essential therapy in gaining functional independence and preventing complications. However, there was no consensus of proper amount of motor rehabilitation in stroke patients. In this study, the investigators investigated the effects of the intensive motor rehabilitation during subacute phase to improve motor function at 6 months after onset in patients with first-ever strokes.
In this study investigator's aim to assess the effect of a type of non-invasive brain stimulation technique called repetitive transcranial magnetic stimulation (rTMS) in conjunction with fluoxetine on motor recovery after stroke.
In this study the investigators aim to investigate the effects of two different types of non-invasive brain stimulation techniques -- repetitive transcranial magnetic stimulation (rTMS) and transcranial direct current stimulation (tDCS) on motor function in stroke. This is a cross-over study where subjects will receive 5 sessions of stimulation (each separated by 1 week) -- with either active tDCS and sham rTMS, sham tDCS and active rTMS or both sham tDCS and rTMS.
The purpose of this study is to evaluate the utility of the S-STREAM as an instrument to assess motor function in subjects who have experienced a nonhemorrhagic ischemic stroke.