View clinical trials related to Stroke.
Filter by:This is an observational prospective study about the reperfusion rate of intravenous thrombolysis on ischemic stroke patients with large vessel occlusions and predictor factors of successful recanalization.
Gait analysis is commonly performed in clinical practice. However, it is complex and requires an understanding of the activation of muscles in lower limbs, trunk, and upper limbs in a specific spatiotemporal pattern and the appropriate joint positions which support and advance the body weight in different phases of gait cycles. In study, we plan to pilot the application of 3D gait analysis with statistical modelling in 2 common causes of gait deviation: unilateral hemiplegic stroke and unilateral lower limb amputation.
Several previous studies have used tDCS as a neuromodulation tool, showing improvements in several diseases (Lefaucheur et al., 2017). Based on these observations, it is believed that the use of tDCS in combination with specific motor training may provide the opportunity to induce behavioral improvements in patients with motor deficits. As shown in previous reports brain stimulation can, in fact, interact with the intrinsic ability of the brain to "repair" damaged brain functions, increasing the involvement of compensatory functional networks and thus inducing neuroplasticity. If these low-cost, easy-to-use stimulation techniques prove to be useful in improving motor deficits with long-term effects, the current study would open up new and interesting avenues in the field of neurorehabilitation. Given the potential long-lasting effects of tDCS, there is currently a growing interest in the clinical sector with the aim to reduce motor deficits in patients with brain injury. The most widely used protocols in stroke patients include the application of either anodal on the hypsilesional hemisphere or cathodal tDCS on the unaffected hemisphere (contralateral), so as to increase and decrease the excitability of the motor cortex, respectively (Nitsche and Paulus, 2001). The main objective of this study is to evaluate the effectiveness of transcranial direct current stimulation in enhancing the functional recovery of the upper limb of stroke patients after three weeks of neuromotor training and subsequent follow-up. The secondary objective is to evaluate the treatment effects on balance, gait, motor dexterity and disability, besides the functional recovery of the lower limb.
The affectedness of the motor control of the upper limb, particulary, the hand and/or fingers, appears in many neurological diseases, what is going to impact on the functionality of the subject. The use of new technologies in the rehabilitation environment, has the target to reduce the impact on the disabling conditions. So that, the goal of this investigation is to evaluate the system use effectiveness of the Leap Motion Controller® in the treatment on the upper limb on patients with neurological disease.
This study will investigate the effects of mild electrical stimulation in conjunction with speech therapy for people with post-stroke aphasia to enhance language recovery.
This study will contribute to the field of stroke rehabilitation research by expanding the investigator's understanding of the neural mechanisms responsible for the development and expression of abnormal flexion synergy, a primary movement impairment due to stroke. The study will longitudinally evaluate motor tract morphology and motor impairment/function in an attempt to develop early neuroimaging-based predictors of the development of flexion synergy and its impact on reaching and hand recovery (6 month). The study will utilize quantitative motor testing (kinematics and kinetics) to measure motor impairment and reaching and hand function. Both neuroimaging and quantitative motor testing will be conducted within 96 hours-, 2 weeks-, 3 months-, and 6 months-post stroke. The knowledge gained by this study will provide crucial structural and functional neuroimaging evidence that demonstrates the timeline of progressive ipsi- and contralesional motor pathway (including bulbospinal pathways) changes and the associated development of flexion synergy that grossly impacts reaching and hand function in individuals with moderate to severe stroke.
This study aims to explore if oral neuromuscular training is superior to orofacial sensory-vibration stimulation in patients with oropharyngeal dysphagia. Four weeks after stroke onset, patients with oropharyngeal dysphagia and pathological swallowing according to the timed water swallow test (TWST) will be randomized 1:1 into a 5-week oral neuromuscular training with an oral device in addition to orofacial sensory-vibration stimulation with an electrical toothbrush (intervention group) or orofacial sensory-vibration stimulation only (control group). The participants will be examined with a TWST, lip force test, and videofluoroscopy (VFS) of oropharyngeal swallowing before (baseline), after 5-weeks training (end-of-training) and at a 12-18 months follow-up. The primary endpoint is changes in TWST at the end-of-training compared with baseline, and at late follow-up based on intention-to-treat analyses. The secondary endpoints are the corresponding changes in lip force and aspiration frequency at VFS.
A recent multicenter study of the Fondazione Don Gnocchi (FDG) Robotic Rehabilitation Group (NCT02879279) showed the efficacy of robotic rehabilitation in upper limb motor recovery after stroke using a set of robots and sensor-based devices. In clinical practice, beside sensory-motor deficits, stroke patients often present concomitant cognitive impairments (as attention and memory disorders). The robotic and technological systems used in the above-mentioned study allow training on some cognitive functions such as visual memory, visual-spatial functions and working memory, as well as motor training of the upper limb. The aim of the study is to assess whether cognitive functions, such as visual memory, visual-spatial skills and working memory (evaluated with specific tests) improve after robotic therapy of the upper limb in subacute stroke patients.
This is a randomized clinical trial aimed at patients with a diagnosis of residual hemiparesis due to ischemic or hemorrhagic stroke. Its objective is to evaluate the effects of the mirror therapy and cognitive therapeutic exercise, both in combination with task-oriented motor learning, to achieve maximum functionality of the affected upper member,
The aim of the work is to; elucidate how the presence of carotid stenosis influence the pattern of stroke and also how it interact with other risk factors for stroke. Also identify predictors of intracranial stenosis and outcome in patients with carotid stenosis with or without intracranial stenosis.